Home
  >  
Section 55

EurekaMag Full Text Articles Chapter 54,982



References:

Zhou, X.-T.; Ji, H.-B.; Huang, X.-J. 2012: Photocatalytic degradation of methyl orange over metalloporphyrins supported on TiO2 Degussa P25. Molecules 17(2): 1149-1158
He, Z.; Que, W.; Chen, J.; Yin, X.; He, Y.; Ren, J. 2012: Photocatalytic degradation of methyl orange over nitrogen-fluorine codoped TiO2 nanobelts prepared by solvothermal synthesis. Acs Applied Materials and Interfaces 4(12): 6816-6826
Kislov, N.; Lahiri, J.; Verma, H.; Goswami, D.Y.; Stefanakos, E.; Batzill, M. 2009: Photocatalytic degradation of methyl orange over single crystalline ZnO: orientation dependence of photoactivity and photostability of ZnO. Langmuir 25(5): 3310-3315
Liao, J.; Lin, S.; Zhang, L.; Pan, N.; Cao, X.; Li, J. 2012: Photocatalytic degradation of methyl orange using a TiO2/Ti mesh electrode with 3D nanotube arrays. Acs Applied Materials and Interfaces 4(1): 171-177
Coutinho, C.A.; Gupta, V.K. 2009: Photocatalytic degradation of methyl orange using polymer-titania microcomposites. Journal of Colloid and Interface Science 333(2): 457-464
Andronic, L.; Manolache, S.; Duta, A. 2008: Photocatalytic degradation of methyl orange: influence of H2O2 in the TiO2-based system. Journal of Nanoscience and Nanotechnology 8(2): 728-732
Carvalho, H.W.P.; Batista, A.P.L.; Hammer, P.; Ramalho, T.C. 2010: Photocatalytic degradation of methylene blue by TiO2-Cu thin films: theoretical and experimental study. Journal of Hazardous Materials 184(1-3): 273-280
Sahoo, C.; Gupta, A.K.; Sasidharan Pillai, I.M. 2012: Photocatalytic degradation of methylene blue dye from aqueous solution using silver ion-doped TiO₂ and its application to the degradation of real textile wastewater. Journal of Environmental Science and Health. Part A Toxic/Hazardous Substances and Environmental Engineering 47(10): 1428-1438
Qazi, I.Rahman.; Lee, W-Jin.; Lee, H-Cheol.; Hassan, M.Shamshi.; Yang, O-Bong. 2010: Photocatalytic degradation of methylene blue dye under visible light over Cr doped strontium titanate (SrTiO3) nanoparticles. Journal of Nanoscience and Nanotechnology 10(5): 3430-3434
Park, C-Min.; Seo, H-Seok.; Cho, J-Ho.; Choi, D-Hye.; Jeong, Y-Shin.; Chung, M-Chul.; Jung, S-Chul.; Jeong, W-Jo.; Ban, J-Sam.; Ahn, H-Geun. 2013: Photocatalytic degradation of methylene blue over nanosized TiO2 particles prepared using the self-propagating high-temperature synthesis method. Journal of Nanoscience and Nanotechnology 13(8): 5879-5882
Ramli, Z.A.C.; Asim, N.; Isahak, W.N.R.W.; Emdadi, Z.; Ahmad-Ludin, N.; Yarmo, M.A.; Sopian, K. 2014: Photocatalytic degradation of methylene blue under UV light irradiation on prepared carbonaceous TiO2. Thescientificworldjournal 2014: 415136
Chauhan, R.; Kumar, A.; Chaudhary, R.Pal. 2013: Photocatalytic degradation of methylene blue with Fe doped ZnS nanoparticles. Spectrochimica Acta. Part A Molecular and Biomolecular Spectroscopy 113: 250-256
Carcel, R.A.; Andronic, L.; Duta, A. 2011: Photocatalytic degradation of methylorange Using TiO2, WO3 and mixed thin films under controlled pH and H2O2. Journal of Nanoscience and Nanotechnology 11(10): 9095-9101
Abramović, B.; Kler, S.; Sojić, D.; Laušević, M.; Radović, T.; Vione, D. 2011: Photocatalytic degradation of metoprolol tartrate in suspensions of two TiO2-based photocatalysts with different surface area. Identification of intermediates and proposal of degradation pathways. Journal of Hazardous Materials 198: 123-132
Jacobs, L.C.V.; Peralta-Zamora, P.; Campos, F.R.; Pontarolo, R. 2013: Photocatalytic degradation of microcystin-LR in aqueous solutions. Chemosphere 90(4): 1552-1557
Bizani, E.; Lambropoulou, D.; Fytianos, K.; Poulios, I. 2014: Photocatalytic degradation of molinate in aqueous solutions. Environmental Science and Pollution Research International 21(21): 12294-12304
Avasarala, B.K.; Tirukkovalluri, S.R.; Bojja, S. 2011: Photocatalytic degradation of monocrotophos pesticide--an endocrine disruptor by magnesium doped titania. Journal of Hazardous Materials 186(2-3): 1234-1240
Khodadoust, S.; Sheini, A.; Armand, N. 2012: Photocatalytic degradation of monoethanolamine in wastewater using nanosized TiO2 loaded on clinoptilolite. Spectrochimica Acta. Part a Molecular and Biomolecular Spectroscopy 92: 91-95
de Franco, M.Andrea.Espina.; da Silva, W.Leonardo.; Bagnara, Mônica.; Lansarin, M.Azário.; Dos Santos, Jão.Henrique.Zimnoch. 2014: Photocatalytic degradation of nicotine in an aqueous solution using unconventional supported catalysts and commercial ZnO/TiO₂ under ultraviolet radiation. Science of the Total Environment 494-495: 97-103
Eng, Y.Y.; Sharma, V.K.; Ray, A.K. 2010: Photocatalytic degradation of nonionic surfactant, Brij 35 in aqueous TiO2 suspensions. Chemosphere 79(2): 205-209
Peres, M.S.; Maniero, M.G.; Guimarães, J.R. 2015: Photocatalytic degradation of ofloxacin and evaluation of the residual antimicrobial activity. Photochemical and Photobiological Sciences: Official Journal of the European Photochemistry Association and the European Society for Photobiology 14(3): 556-562
Bhar, S.K.; Jana, S.; Mondal, A.; Mukherjee, N. 2013: Photocatalytic degradation of organic dye on porous iron sulfide film surface. Journal of Colloid and Interface Science 393: 286-290
Li, T.; Li, Q.; Yan, J.; Li, F. 2014: Photocatalytic degradation of organic dyes by La³⁺/Ce³⁺-H₃PW₁₂O₄₀ under different light irradiation. Dalton Transactions 43(24): 9061-9069
Sivakumar, S.; Selvaraj, A.; Ramasamy, A.K. 2013: Photocatalytic degradation of organic reactive dyes over MnTiO3/TiO2 heterojunction composites under UV-visible irradiation. Photochemistry and Photobiology 89(5): 1047-1056
Echavia, G.R.M.; Matzusawa, F.; Negishi, N. 2009: Photocatalytic degradation of organophosphate and phosphonoglycine pesticides using TiO2 immobilized on silica gel. Chemosphere 76(5): 595-600
Nguyen, A.T.; Juang, R.-S. 2015: Photocatalytic degradation of p-chlorophenol by hybrid H₂O₂ and TiO₂ in aqueous suspensions under UV irradiation. Journal of Environmental Management 147: 271-277
Abdollahi, Y.; Abdullah, A.H.; Zainal, Z.; Yusof, N.A. 2012: Photocatalytic degradation of p-cresol by zinc oxide under UV irradiation. International Journal of Molecular Sciences 13(1): 302-315
Sugiyama, M.; Salehi, Z.; Tokumura, M.; Kawase, Y. 2012: Photocatalytic degradation of p-nitrophenol by zinc oxide particles. Water Science and Technology: a Journal of the International Association on Water Pollution Research 65(10): 1882-1886
Chen, Y.-H.; Liu, Y.-Y.; Lin, R.-H.; Yen, F.-S. 2009: Photocatalytic degradation of p-phenylenediamine with TiO2-coated magnetic PMMA microspheres in an aqueous solution. Journal of Hazardous Materials 163(2-3): 973-981
Moctezuma, E.; Leyva, E.; Aguilar, C.A.; Luna, R.úl.A.; Montalvo, C. 2012: Photocatalytic degradation of paracetamol: intermediates and total reaction mechanism. Journal of Hazardous Materials 243: 130-138
Sorolla, M.G.; Dalida, M.L.; Khemthong, P.; Grisdanurak, N. 2012: Photocatalytic degradation of paraquat using nano-sized Cu-TiO2/SBA-15 under UV and visible light. Journal of Environmental Sciences 24(6): 1125-1132
Hu, C.; Guo, J.; Qu, J.; Hu, X. 2007: Photocatalytic degradation of pathogenic bacteria with AgI/TiO2 under visible light irradiation. Langmuir 23(9): 4982-4987
Antonopoulou, M.; Vlastos, D.; Konstantinou, I. 2015: Photocatalytic degradation of pentachlorophenol by N-F-TiO2: identification of intermediates, mechanism involved, genotoxicity and ecotoxicity evaluation. Photochemical and Photobiological Sciences: Official Journal of the European Photochemistry Association and the European Society for Photobiology 14(3): 520-527
Zhao, B.; Lv, M.; Zhou, L. 2012: Photocatalytic degradation of perfluorooctanoic acid with beta-Ga2O3 in anoxic aqueous solution. Journal of Environmental Sciences 24(4): 774-780
Gu, J.; Dong, D.; Kong, L.; Zheng, Y.; Li, X. 2012: Photocatalytic degradation of phenanthrene on soil surfaces in the presence of nanometer anatase TiO2 under UV-light. Journal of Environmental Sciences 24(12): 2122-2126
Shaban, Y.A.; El Sayed, M.A.; El Maradny, A.A.; Al Farawati, R.Kh.; Al Zobidi, M.I. 2013: Photocatalytic degradation of phenol in natural seawater using visible light active carbon modified (CM)-n-TiO2 nanoparticles under UV light and natural sunlight illuminations. Chemosphere 91(3): 307-313
Devipriya, S.P.; Yesodharan, S. 2010: Photocatalytic degradation of phenol in water using TiO2 and ZnO. Journal of Environmental Biology 31(3): 247-249
Lin, S-Hsia.; Chiou, C-Huann.; Chang, C-Kai.; Juang, R-Shin. 2011: Photocatalytic degradation of phenol on different phases of TiO(2) particles in aqueous suspensions under UV irradiation. Journal of Environmental Management 92(12): 3098-3104
Aruldoss, U.; Kennedy, L.J.; Vijaya, J.J.; Sekaran, G. 2011: Photocatalytic degradation of phenolic syntan using TiO2 impregnated activated carbon. Journal of Colloid and Interface Science 355(1): 204-209
Vinu, R.; Madras, G. 2008: Photocatalytic degradation of poly(acrylamide-co-acrylic acid). Journal of Physical Chemistry. B 112(30): 8928-8935
Paspaltsis, I.; Berberidou, C.; Poulios, I.; Sklaviadis, T. 2009: Photocatalytic degradation of prions using the photo-Fenton reagent. Journal of Hospital Infection 71(2): 149-156
Jung, M.-J.; Im, J.S.; Palanivelu, K.; Kim, T.; Lee, Y.-S. 2010: Photocatalytic degradation of procion blue dye in aqueous solution by a TiO2-carbon nano-composite. Journal of Nanoscience and Nanotechnology 10(1): 297-302
Jing, J.; Li, W.; Boyd, A.; Zhang, Y.; Colvin, V.L.; Yu, W.W. 2012: Photocatalytic degradation of quinoline in aqueous TiO2 suspension. Journal of Hazardous Materials 237-238: 247-255
Mahadwad, O.K.; Parikh, P.A.; Jasra, R.V.; Patil, C. 2012: Photocatalytic degradation of reactive black-5 dye using TiO2-impregnated activated carbon. Environmental Technology 33(1-3): 307-312
Joshi, P.; Purohit, J.; Neti, N.R. 2006: Photocatalytic degradation of reactive dyes and simulated dyebath wastewater. Journal of Environmental Science and Engineering 48(4): 293-298
Huang, N.; Zhang, Y.; Zhang, Q.; Chen, C.-K.; Chang, C.-T. 2014: Photocatalytic degradation of reactive red 141 in the presence of Cr(VI) using TiO2 nanotubes. Journal of Nanoscience and Nanotechnology 14(4): 2718-2724
Lam, S-Mun.; Sin, J-Chung.; Abdullah, A.Zuhairi.; Mohamed, A.Rahman. 2013: Photocatalytic degradation of resorcinol, an endocrine disrupter, by TiO2 and ZnO suspensions. Environmental Technology 34(9-12): 1097-1106
He, Z.; Sun, C.; Yang, S.; Ding, Y.; He, H.; Wang, Z. 2009: Photocatalytic degradation of rhodamine B by Bi(2)WO(6) with electron accepting agent under microwave irradiation: mechanism and pathway. Journal of Hazardous Materials 162(2-3): 1477-1486
Wang, C.-C.; Yu, C.-Y.; Kei, C.-C.; Perng, T.-P. 2011: Photocatalytic degradation of rhodamine B by anchored TiO2 nanowires. Journal of Nanoscience and Nanotechnology 11(1): 200-203
Machado, T.C.; Pizzolato, T.ân.M.; Arenzon, A.; Segalin, J.; Lansarin, M.A.ár. 2015: Photocatalytic degradation of rosuvastatin: analytical studies and toxicity evaluations. Science of the Total Environment 502: 571-577
Sherrard, K.B.; Marriott, P.J.; Amiet, R.G.; Colton, R.; McCormick, M.J.; Smith, G.C. 1995: Photocatalytic degradation of secondary alcohol ethoxylate: spectroscopic, chromatographic, and mass spectrometric studies. Environmental Science and Technology 29(9): 2235-2242
Calza, P.; Medana, C.; Sarro, M.; Rosato, V.; Aigotti, R.; Baiocchi, C.; Minero, C. 2014: Photocatalytic degradation of selected anticancer drugs and identification of their transformation products in water by liquid chromatography-high resolution mass spectrometry. Journal of Chromatography. a 1362: 135-144
Sojić, D.V.; Despotović, V.N.; Abazović, N.D.; Comor, M.I.; Abramović, B.F. 2010: Photocatalytic degradation of selected herbicides in aqueous suspensions of doped titania under visible light irradiation. Journal of Hazardous Materials 179(1-3): 49-56
Fenoll, J.é; Martínez-Menchón, M.; Navarro, G.és.; Vela, N.; Navarro, S.ón. 2013: Photocatalytic degradation of substituted phenylurea herbicides in aqueous semiconductor suspensions exposed to solar energy. Chemosphere 91(5): 571-578
Zhu, X.-D.; Wang, Y.-J.; Sun, R.-J.; Zhou, D.-M. 2013: Photocatalytic degradation of tetracycline in aqueous solution by nanosized TiO2. Chemosphere 92(8): 925-932
Mahadwad, O.K.; Jasra, R.V.; Parikh, P.A.; Tayade, R.J. 2010: Photocatalytic degradation of textile dyes. Journal of Environmental Science and Engineering 52(3): 181-184
Lambropoulou, D.A.; Konstantinou, I.K.; Albanis, T.A.; Fernández-Alba, A.R. 2011: Photocatalytic degradation of the fungicide Fenhexamid in aqueous TiO(2) suspensions: identification of intermediates products and reaction pathways. Chemosphere 83(3): 367-378
Abramović, B.F.; Despotović, V.N.; Šojić, D.V.; Orčić, D.Z.; Csanádi, J.án.J.; Četojević-Simin, D.D. 2013: Photocatalytic degradation of the herbicide clomazone in natural water using TiO2: kinetics, mechanism, and toxicity of degradation products. Chemosphere 93(1): 166-171
Gomathi Devi, L.Naik.; Krishnamurthy, G. 2008: Photocatalytic degradation of the herbicide pendimethalin using nanoparticles of BaTiO3/TiO2 prepared by gel to crystalline conversion method: a kinetic approach. Journal of Environmental Science and Health. Part. B Pesticides Food Contaminants and Agricultural Wastes 43(7): 553-561
Ardizzone, S.A.; Bianchi, C.L.; Cappelletti, G.; Naldoni, A.; Pirola, C. 2008: Photocatalytic degradation of toluene in the gas phase: relationship between surface species and catalyst features. Environmental Science and Technology 42(17): 6671-6676
Shinde, S.S.; Bhosale, C.H.; Rajpure, K.Y. 2012: Photocatalytic degradation of toluene using sprayed N-doped ZnO thin films in aqueous suspension. Journal of Photochemistry and Photobiology. B Biology 113: 70-77
Park, O.H.; Na, H.Y. 2008: Photocatalytic degradation of toluene vapour using fixed bed multichannel photoreactors equipped with TiO2-coated fabrics. Environmental Technology 29(9): 1001-1007
Joo, J.C.; Ahn, C.H.; Jang, D.G.; Yoon, Y.H.; Kim, J.K.; Campos, L.; Ahn, H. 2013: Photocatalytic degradation of trichloroethylene in aqueous phase using nano-ZNO/Laponite composites. Journal of Hazardous Materials 263 Pt 2: 569-574
Oros-Ruiz, S.; Zanella, R.; Prado, B. 2013: Photocatalytic degradation of trimethoprim by metallic nanoparticles supported on TiO2-P25. Journal of Hazardous Materials 263 Pt 1: 28-35
Kansal, S.; Kaur, N.; Singh, S. 2009: Photocatalytic degradation of two commercial reactive dyes in aqueous phase using nanophotocatalysts. Nanoscale Research Letters 4(7): 709-716
Liu, C.; Yang, Y.; Wang, Q.; Kim, M.; Zhu, Q.; Li, D.; Zhang, Z. 2012: Photocatalytic degradation of waste activated sludge using a circulating bed photocatalytic reactor for improving biohydrogen production. Bioresource Technology 125: 30-36
Grčić, I.; Li Puma, G. 2013: Photocatalytic degradation of water contaminants in multiple photoreactors and evaluation of reaction kinetic constants independent of photon absorption, irradiance, reactor geometry, and hydrodynamics. Environmental Science and Technology 47(23): 13702-13711
Zabar, R.; Komel, T.; Fabjan, J.; Kralj, M.B.; Trebše, P. 2012: Photocatalytic degradation with immobilised TiO(2) of three selected neonicotinoid insecticides: imidacloprid, thiamethoxam and clothianidin. Chemosphere 89(3): 293-301
Xu, H.-Y.; Liu, W.-C.; Shi, J.; Zhao, H.; Qi, S.-Y. 2014: Photocatalytic discoloration of Methyl Orange by anatase/schorl composite: optimization using response surface method. Environmental Science and Pollution Research International 21(2): 1582-1591
Rengifo-Herrera, Ján.Andrés.; Pizzio, L.René.; Blanco, M.Noemí.; Roussel, C.; Pulgarin, César. 2011: Photocatalytic discoloration of aqueous malachite green solutions by UV-illuminated TiO2 nanoparticles under air and nitrogen atmospheres: effects of counter-ions and pH. Photochemical and Photobiological Sciences: Official Journal of the European Photochemistry Association and the European Society for Photobiology 10(1): 29-34
Ede, S.; Hafner, L.; Dunlop, P.; Byrne, J.; Will, G. 2012: Photocatalytic disinfection of bacterial pollutants using suspended and immobilized TiO2 powders. Photochemistry and Photobiology 88(3): 728-735
Foster, H.A.; Ditta, I.B.; Varghese, S.; Steele, A. 2011: Photocatalytic disinfection using titanium dioxide: spectrum and mechanism of antimicrobial activity. Applied Microbiology and Biotechnology 90(6): 1847-1868
Kominami, H.; Gekko, H.; Hashimoto, K. 2010: Photocatalytic disproportionation of nitrite to dinitrogen and nitrate in an aqueous suspension of metal-loaded titanium(IV) oxide nanoparticles. Physical Chemistry Chemical Physics: Pccp 12(47): 15423-15427
Peruchon, L.; Puzenat, E.; Herrmann, J.M.; Guillard, C. 2009: Photocatalytic efficiencies of self-cleaning glasses. Influence of physical factors. Photochemical and Photobiological Sciences: Official Journal of the European Photochemistry Association and the European Society for Photobiology 8(7): 1040-1046
Sánchez, B.; Sánchez-Muñoz, M.; Muñoz-Vicente, M.ía.; Cobas, G.; Portela, R.; Suárez, S.; González, A.E.; Rodríguez, N.; Amils, R. 2012: Photocatalytic elimination of indoor air biological and chemical pollution in realistic conditions. Chemosphere 87(6): 625-630
Cao, L.; Yuan, J.; Chen, M.; Shangguan, W. 2010: Photocatalytic energy storage ability of TiO2-WO3 composite prepared by wet-chemical technique. Journal of Environmental Sciences 22(3): 454-459
Nie, Y.; Zhang, L.; Wu, D.; Chen, Y.; Zhang, G.; Xie, Q.; Liu, Z. 2013: Photocatalytic engineering of single-walled carbon nanotubes: from metal-to-semiconductor conversion to cutting and patterning. Small 9(8): 1336-1341
Harris, C.; Kamat, P.V. 2010: Photocatalytic events of CdSe quantum dots in confined media. Electrodic behavior of coupled platinum nanoparticles. Acs Nano 4(12): 7321-7330
Kawai, K.; Kodera, H.; Majima, T. 2010: Photocatalytic formation of I-i bonds using DNA which enables detection of single nucleotide polymorphisms. Journal of the American Chemical Society 132(40): 14216-14220
Tung, W.S.; Daoud, W.A. 2008: Photocatalytic formulations for protein fibers: experimental analysis of the effect of preparation on compatibility and photocatalytic activities. Journal of Colloid and Interface Science 326(1): 283-288
Li, K.; Xu, Y.; He, Y.; Yang, C.; Wang, Y.; Jia, J. 2013: Photocatalytic fuel cell (PFC) and dye self-photosensitization photocatalytic fuel cell (DSPFC) with BiOCl/Ti photoanode under UV and visible light irradiation. Environmental Science and Technology 47(7): 3490-3497
Shimakoshi, H.; Nishi, M.; Tanaka, A.; Chikama, K.; Hisaeda, Y. 2011: Photocatalytic function of a polymer-supported B12 complex with a ruthenium trisbipyridine photosensitizer. Chemical Communications 47(23): 6548-6550
Kotani, H.; Suenobu, T.; Lee, Y.-M.; Nam, W.; Fukuzumi, S. 2011: Photocatalytic generation of a non-heme oxoiron(IV) complex with water as an oxygen source. Journal of the American Chemical Society 133(10): 3249-3251
Liao, Y.; Brame, J.; Que, W.; Xiu, Z.; Xie, H.; Li, Q.; Fabian, M.; Alvarez, P.J. 2013: Photocatalytic generation of multiple ROS types using low-temperature crystallized anodic TiO₂ nanotube arrays. Journal of Hazardous Materials 260: 434-441
Ashur, I.; Goldschmidt, R.; Pinkas, I.; Salomon, Y.; Szewczyk, G.; Sarna, T.; Scherz, A. 2009: Photocatalytic generation of oxygen radicals by the water-soluble bacteriochlorophyll derivative WST11, noncovalently bound to serum albumin. Journal of Physical Chemistry. a 113(28): 8027-8037
Protti, S.; Albini, A.; Serpone, N. 2014: Photocatalytic generation of solar fuels from the reduction of H2O and CO2: a look at the patent literature. Physical Chemistry Chemical Physics: Pccp 16(37): 19790-19827
De Tacconi, N.R.; Timmaji, H.K.; Chanmanee, W.; Huda, M.N.; Sarker, P.; Janáky, C.; Rajeshwar, K. 2012: Photocatalytic generation of syngas using combustion-synthesized silver bismuth tungstate. Chemphyschem: a European Journal of Chemical Physics and Physical Chemistry 13(12): 2945-2955
Tanabe, I.; Matsubara, K.; Standridge, S.D.; Kazuma, E.; Kelly, K.L.; Sakai, N.; Tatsuma, T. 2009: Photocatalytic growth and plasmon resonance-assisted photoelectrochemical toppling of upright Ag nanoplates on a nanoparticulate TiO2 film. Chemical Communications 24: 3621-3623
Laurier, K.G.M.; Poets, M.; Vermoortele, F.; De Cremer, G.; Martens, J.A.; UjI-i, H.; De Vos, D.E.; Hofkens, J.; Roeffaers, M.B.J. 2012: Photocatalytic growth of dendritic silver nanostructures as SERS substrates. Chemical Communications 48(10): 1559-1561
Senaweera, S.M.; Singh, A.; Weaver, J.D. 2014: Photocatalytic hydrodefluorination: facile access to partially fluorinated aromatics. Journal of the American Chemical Society 136(8): 3002-3005
Zhu, M.; Dong, Y.; Du, Y.; Mou, Z.; Liu, J.; Yang, P.; Wang, X. 2012: Photocatalytic hydrogen evolution based on efficient energy and electron transfers in donor-bridge-acceptor multibranched-porphyrin-functionalized platinum nanocomposites. Chemistry 18(14): 4367-4374
Wang, W.-G.; Wang, F.; Wang, H.-Y.; Si, G.; Tung, C.-H.; Wu, L.-Z. 2010: Photocatalytic hydrogen evolution by [FeFe] hydrogenase mimics in homogeneous solution. Chemistry An Asian Journal 5(8): 1796-1803
Sano, Y.; Onoda, A.; Hayashi, T. 2012: Photocatalytic hydrogen evolution by a diiron hydrogenase model based on a peptide fragment of cytochrome c556 with an attached diiron carbonyl cluster and an attached ruthenium photosensitizer. Journal of Inorganic Biochemistry 108: 159-162
Aslan, E.; Birinci, O.; Aljabour, A.; Ozel, F.; Akın, I.; Hatay Patir, I.; Kus, M.; Ersoz, M. 2014: Photocatalytic hydrogen evolution by oleic acid-capped CdS, CdSe, and CdS0.75Se0.25 alloy nanocrystals. Chemphyschem: a European Journal of Chemical Physics and Physical Chemistry 15(13): 2668-2671
Yuhas, B.D.; Smeigh, A.L.; Douvalis, A.P.; Wasielewski, M.R.; Kanatzidis, M.G. 2012: Photocatalytic hydrogen evolution from FeMoS-based biomimetic chalcogels. Journal of the American Chemical Society 134(25): 10353-10356
Yamada, Y.; Miyahigashi, T.; Ohkubo, K.; Fukuzumi, S. 2012: Photocatalytic hydrogen evolution from carbon-neutral oxalate with 2-phenyl-4-(1-naphthyl)quinolinium ion and metal nanoparticles. Physical Chemistry Chemical Physics: Pccp 14(30): 10564-10571
Wang, J.-J.; Li, Z.-J.; Li, X.-B.; Fan, X.-B.; Meng, Q.-Y.; Yu, S.; Li, C.-B.; Li, J.-X.; Tung, C.-H.; Wu, L.-Z. 2014: Photocatalytic hydrogen evolution from glycerol and water over nickel-hybrid cadmium sulfide quantum dots under visible-light irradiation. Chemsuschem 7(5): 1468-1475
Wang, H.-Y.; Wang, W.-G.; Si, G.; Wang, F.; Tung, C.-H.; Wu, L.-Z. 2010: Photocatalytic hydrogen evolution from rhenium(I) complexes to [FeFe] hydrogenase mimics in aqueous SDS micellar systems: a biomimetic pathway. Langmuir 26(12): 9766-9771
Takanabe, K.; Kamata, K.; Wang, X.; Antonietti, M.; Kubota, J.; Domen, K. 2010: Photocatalytic hydrogen evolution on dye-sensitized mesoporous carbon nitride photocatalyst with magnesium phthalocyanine. Physical Chemistry Chemical Physics: Pccp 12(40): 13020-13025
Schwab, M.G.; Hamburger, M.; Feng, X.; Shu, J.; Spiess, H.W.; Wang, X.; Antonietti, M.; Müllen, K. 2010: Photocatalytic hydrogen evolution through fully conjugated poly(azomethine) networks. Chemical Communications 46(47): 8932-8934
Yamada, Y.; Miyahigashi, T.; Kotani, H.; Ohkubo, K.; Fukuzumi, S. 2011: Photocatalytic hydrogen evolution under highly basic conditions by using Ru nanoparticles and 2-phenyl-4-(1-naphthyl)quinolinium ion. Journal of the American Chemical Society 133(40): 16136-16145
Sakai, T.; Mersch, D.; Reisner, E. 2013: Photocatalytic hydrogen evolution with a hydrogenase in a mediator-free system under high levels of oxygen. Angewandte Chemie 52(47): 12313-12316
Natali, M.; Argazzi, R.; Chiorboli, C.; Iengo, E.; Scandola, F. 2013: Photocatalytic hydrogen evolution with a self-assembling reductant-sensitizer-catalyst system. Chemistry 19(28): 9261-9271
Li, M.; Zhang, J.; Dang, W.; Cushing, S.K.; Guo, D.; Wu, N.; Yin, P. 2013: Photocatalytic hydrogen generation enhanced by band gap narrowing and improved charge carrier mobility in AgTaO3 by compensated co-doping. Physical Chemistry Chemical Physics: Pccp 15(38): 16220-16226
Wang, X.; Shih, K.; Li, X.Y. 2010: Photocatalytic hydrogen generation from water under visible light using core/shell nano-catalysts. Water Science and Technology: a Journal of the International Association on Water Pollution Research 61(9): 2303-2308
Gärtner, F.; Boddien, A.; Barsch, E.; Fumino, K.; Losse, S.; Junge, H.; Hollmann, D.; Brückner, A.; Ludwig, R.; Beller, M. 2011: Photocatalytic hydrogen generation from water with iron carbonyl phosphine complexes: improved water reduction catalysts and mechanistic insights. Chemistry 17(23): 6425-6436
Liu, Y.; Xie, L.; Li, Y.; Qu, J.L.; Zheng, J.; Li, X.G. 2009: Photocatalytic hydrogen generation over lanthanum doped TiO2 under UV light irradiation. Journal of Nanoscience and Nanotechnology 9(2): 1514-1517
Kagalwala, H.N.; Gottlieb, E.; Li, G.; Li, T.; Jin, R.; Bernhard, S. 2013: Photocatalytic hydrogen generation system using a nickel-thiolate hexameric cluster. Inorganic Chemistry 52(15): 9094-9101
Dai, K.; Peng, T.; Ke, D.; Wei, B. 2009: Photocatalytic hydrogen generation using a nanocomposite of multi-walled carbon nanotubes and TiO2 nanoparticles under visible light irradiation. Nanotechnology 20(12): 125603
Matsuo, T.; Asano, A.; Ando, T.; Hisaeda, Y.; Hayashi, T. 2008: Photocatalytic hydrogen generation using a protein-coated photosensitizer with anionic patches and a monocationic electron mediator. Chemical Communications 31: 3684-3686
Teets, T.S.; Nocera, D.G. 2011: Photocatalytic hydrogen production. Chemical Communications 47(33): 9268-9274
Oros-Ruiz, S.; Zanella, R.; López, R.; Hernández-Gordillo, A.; Gómez, R. 2013: Photocatalytic hydrogen production by water/methanol decomposition using Au/TiO2 prepared by deposition-precipitation with urea. Journal of Hazardous Materials 263 Pt 1: 2-10
Lazarides, T.; Delor, M.; Sazanovich, I.V.; McCormick, T.M.; Georgakaki, I.; Charalambidis, G.; Weinstein, J.A.; Coutsolelos, A.G. 2014: Photocatalytic hydrogen production from a noble metal free system based on a water soluble porphyrin derivative and a cobaloxime catalyst. Chemical Communications 50(5): 521-523
Cao, W.-N.; Wang, F.; Wang, H.-Y.; Chen, B.; Feng, K.; Tung, C.-H.; Wu, L.-Z. 2012: Photocatalytic hydrogen production from a simple water-soluble [FeFe]-hydrogenase model system. Chemical Communications 48(65): 8081-8083
Elvington, M.; Brown, J.; Arachchige, S.M.; Brewer, K.J. 2007: Photocatalytic hydrogen production from water employing a Ru, Rh, Ru molecular device for photoinitiated electron collection. Journal of the American Chemical Society 129(35): 10644-10645
Jasimuddin, S.; Yamada, T.; Fukuju, K.; Otsuki, J.; Sakai, K. 2010: Photocatalytic hydrogen production from water in self-assembled supramolecular iridium-cobalt systems. Chemical Communications 46(44): 8466-8468
Zhang, J.; Liu, X. 2014: Photocatalytic hydrogen production from water under visible light irradiation using a dye-sensitized attapulgite nanocrystal photocatalyst. Physical Chemistry Chemical Physics: Pccp 16(18): 8655-8660
Ji, S.M.; Borse, P.H.; Kim, H.G.; Hwang, D.W.; Jang, J.S.; Bae, S.W.; Lee, J.S. 2005: Photocatalytic hydrogen production from water-methanol mixtures using N-doped Sr2Nb2O7 under visible light irradiation: effects of catalyst structure. Physical Chemistry Chemical Physics: Pccp 7(6): 1315-1321
Wender, H.; Gonçalves, R.V.; Dias, C.Sato.B.; Zapata, M.J.M.; Zagonel, L.F.; Mendonça, E.C.; Teixeira, Sérgio.R.; Garcia, Fávio. 2013: Photocatalytic hydrogen production of Co(OH)₂ nanoparticle-coated α-Fe₂O₃ nanorings. Nanoscale 5(19): 9310-9316
Yu, J.; Hai, Y.; Jaroniec, M. 2011: Photocatalytic hydrogen production over CuO-modified titania. Journal of Colloid and Interface Science 357(1): 223-228
Orain, C.; Quentel, F.ço.; Gloaguen, F. 2014: Photocatalytic hydrogen production using models of the iron-iron hydrogenase active site dispersed in micellar solution. Chemsuschem 7(2): 638-643
Yoshida, H.; Yuzawa, H.; Aoki, M.; Otake, K.; Itoh, H.; Hattori, T. 2008: Photocatalytic hydroxylation of aromatic ring by using water as an oxidant. Chemical Communications 38: 4634-4636
Cui, H.; Jiang, J.; Gu, W.; Sun, C.; Wu, D.; Yang, T.; Yang, G. 2010: Photocatalytic inactivation efficiency of anatase Nano-TiO(2) Sol on the H(9) N(2) avian influenza virus. Photochemistry and Photobiology 86(5): 1135-1139
Alrousan, D.M.A.; Dunlop, P.S.M.; McMurray, T.A.; Byrne, J.Anthony. 2009: Photocatalytic inactivation of E. coli in surface water using immobilised nanoparticle TiO2 films. Water Research 43(1): 47-54
Kim, D.S.; Kwak, S.-Y. 2009: Photocatalytic inactivation of E. coli with a mesoporous TiO2 coated film using the film adhesion method. Environmental Science and Technology 43(1): 148-151
Backhaus, K.; Marugán, J.; van Grieken, R.; Sordo, C. 2010: Photocatalytic inactivation of E. faecalis in secondary wastewater plant effluents. Water Science and Technology: a Journal of the International Association on Water Pollution Research 61(9): 2355-2361
Chen, Y.; Lu, A.; Li, Y.; Yip, H.Y.; An, T.; Li, G.; Jin, P.; Wong, P.-K. 2011: Photocatalytic inactivation of Escherichia coli by natural sphalerite suspension: effect of spectrum, wavelength and intensity of visible light. Chemosphere 84(9): 1276-1281
Cohen-Yaniv, V.; Narkis, N.; Armon, R. 2008: Photocatalytic inactivation of Flavobacterium and E. coli in water by a continuous stirred tank reactor (CSTR) fed with suspended/immobilised TiO2 medium. Water Science and Technology: a Journal of the International Association on Water Pollution Research 58(1): 247-252
Ishiguro, H.; Nakano, R.; Yao, Y.; Kajioka, J.; Fujishima, A.; Sunada, K.; Minoshima, M.; Hashimoto, K.; Kubota, Y. 2011: Photocatalytic inactivation of bacteriophages by TiO2-coated glass plates under low-intensity, long-wavelength UV irradiation. Photochemical and Photobiological Sciences: Official Journal of the European Photochemistry Association and the European Society for Photobiology 10(11): 1825-1829
Cai, Y.; Strømme, M.; Melhus, A.; Engqvist, H.åk.; Welch, K. 2014: Photocatalytic inactivation of biofilms on bioactive dental adhesives. Journal of Biomedical Materials Research. Part B Applied Biomaterials 102(1): 62-67
Huang, W.-J.; Lin, T.-P.; Chen, J.-S.; Shih, F.-H. 2011: Photocatalytic inactivation of cyanobacteria with ZnO/gamma-AIO23 composite under solar light. Journal of Environmental Biology 32(3): 301-307
Sang, X.; Phan, T.G.; Sugihara, S.; Yagyu, F.; Okitsu, S.; Maneekarn, N.; Werner E. G. Müller; Ushijima, H. 2007: Photocatalytic Inactivation of Diarrheal Viruses by Visible-Light-Catalytic Titanium Dioxide. Clinical Laboratory 53(7-8): 413-421
Nakano, R.; Ishiguro, H.; Yao, Y.; Kajioka, J.; Fujishima, A.; Sunada, K.; Minoshima, M.; Hashimoto, K.; Kubota, Y. 2012: Photocatalytic inactivation of influenza virus by titanium dioxide thin film. Photochemical and Photobiological Sciences: Official Journal of the European Photochemistry Association and the European Society for Photobiology 11(8): 1293-1298
Prasad, G.K.; Ramacharyulu, P.V.R.K.; Merwyn, S.; Agarwal, G.S.; Srivastava, A.R.; Singh, B.; Rai, G.P.; Vijayaraghavan, R. 2011: Photocatalytic inactivation of spores of Bacillus anthracis using titania nanomaterials. Journal of Hazardous Materials 185(2-3): 977-982
Idris, A.; Hassan, N.; Mohd Ismail, N.S.; Misran, E.; Yusof, N.M.; Ngomsik, A.-F.; Bee, A. 2010: Photocatalytic magnetic separable beads for chromium (VI) reduction. Water Research 44(6): 1683-1688
Saha, S.; Das, G.; Thote, J.; Banerjee, R. 2014: Photocatalytic metal-organic framework from CdS quantum dot incubated luminescent metallohydrogel. Journal of the American Chemical Society 136(42): 14845-14851
Sordello, F.; Duca, C.; Maurino, V.; Minero, C. 2011: Photocatalytic metamaterials: TiO2 inverse opals. Chemical Communications 47(21): 6147-6149
In, S.-i.; Nielsen, M.G.; Vesborg, P.C.K.; Hou, Y.; Abrams, B.L.; Henriksen, T.R.; Hansen, O.; Chorkendorff, I. 2011: Photocatalytic methane decomposition over vertically aligned transparent TiO2 nanotube arrays. Chemical Communications 47(9): 2613-2615
Colina-Márquez, J.; Machuca-Martínez, F.; Li Puma, G. 2009: Photocatalytic mineralization of commercial herbicides in a pilot-scale solar CPC reactor: photoreactor modeling and reaction kinetics constants independent of radiation field. Environmental Science and Technology 43(23): 8953-8960
Chen, J.Q.; Hu, Z.J.; Wang, N.X. 2012: Photocatalytic mineralization of glyphosate in a small-scale plug flow simulation reactor by UV/TiO2. Journal of Environmental Science and Health. Part. B Pesticides Food Contaminants and Agricultural Wastes 47(6): 579-588
Hori, H.; Ishida, K.; Inoue, N.; Koike, K.; Kutsuna, S. 2011: Photocatalytic mineralization of hydroperfluorocarboxylic acids with heteropolyacid H₄SiW₁₂O₄₀ in water. Chemosphere 82(8): 1129-1134
Ohkubo, K.; Fujimoto, A.; Fukuzumi, S. 2013: Photocatalytic monofluorination of benzene by fluoride via photoinduced electron transfer with 3-cyano-1-methylquinolinium. Journal of Physical Chemistry. a 117(41): 10719-10725
Ul-Haq, E.; Patole, S.; Moxey, M.; Amstad, E.; Vasilev, C.; Hunter, C.N.; Leggett, G.J.; Spencer, N.D.; Williams, N.H. 2013: Photocatalytic nanolithography of self-assembled monolayers and proteins. Acs Nano 7(9): 7610-7618
Yang, X.-J.; Chen, B.; Li, X.-B.; Zheng, L.-Q.; Wu, L.-Z.; Tung, C.-H. 2014: Photocatalytic organic transformation by layered double hydroxides: highly efficient and selective oxidation of primary aromatic amines to their imines under ambient aerobic conditions. Chemical Communications 50(50): 6664-6667
Wang, X.; Xu, Q.; Li, M.; Shen, S.; Wang, X.; Wang, Y.; Feng, Z.; Shi, J.; Han, H.; Li, C. 2012: Photocatalytic overall water splitting promoted by an α-β phase junction on Ga2O3. Angewandte Chemie 51(52): 13089-13092
Maeda, K.; Xiong, A.; Yoshinaga, T.; Ikeda, T.; Sakamoto, N.; Hisatomi, T.; Takashima, M.; Lu, D.; Kanehara, M.; Setoyama, T.; Teranishi, T.; Domen, K. 2010: Photocatalytic overall water splitting promoted by two different cocatalysts for hydrogen and oxygen evolution under visible light. Angewandte Chemie 49(24): 4096-4099
Yao, S.Hua.; Jia, Y.Feng.; Zhao, S.Lin. 2012: Photocatalytic oxidation and removal of arsenite by titanium dioxide supported on granular activated carbon. Environmental Technology 33(7-9): 983-988
Choi, W.; Yeo, J.; Ryu, J.; Tachikawa, T.; Majima, T. 2010: Photocatalytic oxidation mechanism of As(III) on TiO2: unique role of As(III) as a charge recombinant species. Environmental Science and Technology 44(23): 9099-9104
Lin, H.H.-H.; Lin, A.Y.-C. 2014: Photocatalytic oxidation of 5-fluorouracil and cyclophosphamide via UV/TiO2 in an aqueous environment. Water Research 48: 559-568
Dai, W.; Chen, X.; Zheng, X.; Ding, Z.; Wang, X.; Liu, P.; Fu, X. 2009: Photocatalytic oxidation of CO on TiO(2): chemisorption of O(2), CO, and H(2). Chemphyschem: a European Journal of Chemical Physics and Physical Chemistry 10(2): 411-419
Kent, F.C.; Montreuil, K.R.; Brookman, R.M.; Sanderson, R.; Dahn, J.R.; Gagnon, G.A. 2011: Photocatalytic oxidation of DBP precursors using UV with suspended and fixed TiO2. Water Research 45(18): 6173-6180
Chen, F.; Yang, X.; Wu, Q. 2009: Photocatalytic oxidation of Escherischia coli, Aspergillus niger, and formaldehyde under different ultraviolet irradiation conditions. Environmental Science and Technology 43(12): 4606-4611
Guo, G.; Hu, Y.; Jiang, S.; Wei, C. 2012: Photocatalytic oxidation of NOx over TiO2/HZSM-5 catalysts in the presence of water vapor: Effect of hydrophobicity of zeolites. Journal of Hazardous Materials 223-224: 39-45
Chen, Y.-C.; Lo, S.-L.; Ou, H.-H.; Chen, C.-H. 2011: Photocatalytic oxidation of ammonia by cadmium sulfide/titanate nanotubes synthesised by microwave hydrothermal method. Water Science and Technology: a Journal of the International Association on Water Pollution Research 63(3): 550-557
Wang, H.; Su, Y.; Zhao, H.; Yu, H.; Chen, S.; Zhang, Y.; Quan, X. 2014: Photocatalytic oxidation of aqueous ammonia using atomic single layer graphitic-C3N4. Environmental Science and Technology 48(20): 11984-11990
Yao, S.; Jia, Y.; Shi, Z.; Zhao, S. 2010: Photocatalytic oxidation of arsenite by a composite of titanium dioxide and activated carbon fiber. Photochemistry and Photobiology 86(6): 1215-1221
Fei, H.; Leng, W.; Li, X.; Cheng, X.; Xu, Y.; Zhang, J.; Cao, C. 2011: Photocatalytic oxidation of arsenite over TiO2: is superoxide the main oxidant in normal air-saturated aqueous solutions?. Environmental Science and Technology 45(10): 4532-4539
Gad-Allah, T.A.; Ali, M.E.M.; Badawy, M.I. 2011: Photocatalytic oxidation of ciprofloxacin under simulated sunlight. Journal of Hazardous Materials 186(1): 751-755
Xiaoju, Y.; Ruiling, B.; Shuili, Y.; Qiongfang, L.; Wei, C. 2012: Photocatalytic oxidation of humic acid and its effect on haloacetic acid formation potential: a fluorescence spectrometry study. Water Science and Technology: a Journal of the International Association on Water Pollution Research 65(9): 1548-1556
Zhao, W.; Dai, J.; Liu, F.; Bao, J.; Wang, Y.; Yang, Y.; Yang, Y.; Zhao, D. 2012: Photocatalytic oxidation of indoor toluene: process risk analysis and influence of relative humidity, photocatalysts, and VUV irradiation. Science of the Total Environment 438: 201-209
Chu, W.; Rao, Y.F. 2012: Photocatalytic oxidation of monuron in the suspension of WO3 under the irradiation of UV-visible light. Chemosphere 86(11): 1079-1086
Philippe, K.K.; Hans, C.; MacAdam, J.; Jefferson, B.; Hart, J.; Parsons, S.A. 2010: Photocatalytic oxidation of natural organic matter surrogates and the impact on trihalomethane formation potential. Chemosphere 81(11): 1509-1516
Zhou, X.; Li, F.; Li, X.; Li, H.; Wang, Y.; Sun, L. 2015: Photocatalytic oxidation of organic compounds in a hybrid system composed of a molecular catalyst and visible light-absorbing semiconductor. Dalton Transactions 44(2): 475-479
Ohzu, S.; Ishizuka, T.; Hirai, Y.; Fukuzumi, S.; Kojima, T. 2013: Photocatalytic oxidation of organic compounds in water by using ruthenium(II)-pyridylamine complexes as catalysts with high efficiency and selectivity. Chemistry 19(5): 1563-1567
Yang, L.; Yu, L.E.; Ray, M.B. 2009: Photocatalytic oxidation of paracetamol: dominant reactants, intermediates, and reaction mechanisms. Environmental Science and Technology 43(2): 460-465
Silva, C.áu.G.; Faria, J.L.ís. 2010: Photocatalytic oxidation of phenolic compounds by using a carbon nanotube-titanium dioxide composite catalyst. Chemsuschem 3(5): 609-618
De Torres, M.; van Hameren, R.; Nolte, R.J.M.; Rowan, A.E.; Elemans, J.A.A.W. 2013: Photocatalytic oxidation of stilbene by self-assembled stacks of manganese porphyrins. Chemical Communications 49(92): 10787-10789
Tachikawa, T.; Majima, T. 2012: Photocatalytic oxidation surfaces on anatase TiO2 crystals revealed by single-particle chemiluminescence imaging. Chemical Communications 48(27): 3300-3302
Philippe, K.K.; Hans, C.; MacAdam, J.; Jefferson, B.; Hart, J.; Parsons, S.A. 2010: Photocatalytic oxidation, GAC and biotreatment combinations: an alternative to the coagulation of hydrophilic rich waters?. Environmental Technology 31(13): 1423-1434
Jung, J.; Ohkubo, K.; Goldberg, D.P.; Fukuzumi, S. 2014: Photocatalytic oxygenation of 10-methyl-9,10-dihydroacridine by O₂ with manganese porphyrins. Journal of Physical Chemistry. a 118(32): 6223-6229
Jing, Y.; Li, L.; Zhang, Q.; Lu, P.; Liu, P.; Lü, X. 2011: Photocatalytic ozonation of dimethyl phthalate with TiO2 prepared by a hydrothermal method. Journal of Hazardous Materials 189(1-2): 40-47
Fuentes, I.; Rodríguez, J.L.; Poznyak, T.; Chairez, I. 2014: Photocatalytic ozonation of terephthalic acid: a by-product-oriented decomposition study. Environmental Science and Pollution Research International 21(21): 12241-12248
Zhang, L.; Diao, S.; Nie, Y.; Yan, K.; Liu, N.; Dai, B.; Xie, Q.; Reina, A.; Kong, J.; Liu, Z. 2011: Photocatalytic patterning and modification of graphene. Journal of the American Chemical Society 133(8): 2706-2713
Cai, T.; Liao, Y.; Peng, Z.; Long, Y.; Wei, Z.; Deng, Q. 2009: Photocatalytic performance of TiO2 catalysts modified by H3PW12O40, ZrO2 and CeO2. Journal of Environmental Sciences 21(7): 997-1004
Donphai, W.; Kamegawa, T.; Chareonpanich, M.; Nueangnoraj, K.; Nishihara, H.; Kyotani, T.; Yamashita, H. 2014: Photocatalytic performance of TiO2-zeolite templated carbon composites in organic contaminant degradation. Physical Chemistry Chemical Physics: Pccp 16(45): 25004-25007
Akyol, A.; Bayramoglu, M. 2010: Photocatalytic performance of ZnO coated tubular reactor. Journal of Hazardous Materials 180(1-3): 466-473
Jang, J.S.; Borse, P.H.; Lee, J.S.; Lim, K.T.; Cho, C.R.; Jeong, E.D.; Ha, M.G.; Won, M.S.; Kim, H.G. 2010: Photocatalytic performance of nanocrystalline Bi5Ti3FeO15 layered perovskite under visible light. Journal of Nanoscience and Nanotechnology 10(8): 5008-5014
Kuvarega, A.T.; Krause, R.W.M.; Mamba, B.B. 2013: Photocatalytic performance of nitrogen, osmium co-doped TiO2 for removal of eosin yellow in water under simulated solar radiation. Journal of Nanoscience and Nanotechnology 13(7): 5017-5027
Sin, J.-C.; Lam, S.-M.; Lee, K.-T.; Mohamed, A.R. 2013: Photocatalytic performance of novel samarium-doped spherical-like ZnO hierarchical nanostructures under visible light irradiation for 2,4-dichlorophenol degradation. Journal of Colloid and Interface Science 401: 40-49
Malayeri, H.Z.; Ayati, B.; Ganjidoust, H. 2014: Photocatalytic phenol degradation by immobilized nano ZnO: intermediates and key operating parameters. Water Environment Research: a Research Publication of the Water Environment Federation 86(9): 771-778
Brame, J.A.; Hong, S.W.; Lee, J.; Lee, S.-H.; Alvarez, P.J.J. 2013: Photocatalytic pre-treatment with food-grade TiO(2) increases the bioavailability and bioremediation potential of weathered oil from the Deepwater Horizon oil spill in the Gulf of Mexico. Chemosphere 90(8): 2315-2319
Kang, J.-x.; Lu, L.; Zhan, W.; Li, B.; Li, D.-s.; Ren, Y.-z.; Liu, D.-q. 2011: Photocatalytic pretreatment of oily wastewater from the restaurant by a vacuum ultraviolet/TiO2 system. Journal of Hazardous Materials 186(1): 849-854
Peng, J.; Garcia Marcos, A.; Jeong, S.-J.; Frey, H.; Kim, D.H. 2009: Photocatalytic printing of inorganic nanopatterns via poly(styrene-block-carbosilane) copolymer thin films on titania substrates. Chemical Communications 9: 1091-1093
Su, C.; Ran, X.; Hu, J.; Shao, C. 2013: Photocatalytic process of simultaneous desulfurization and denitrification of flue gas by TiO2-polyacrylonitrile nanofibers. Environmental Science and Technology 47(20): 11562-11568
Castro, C.A.; Osorio, P.; Sienkiewicz, A.; Pulgarin, C.; Centeno, A.ób.; Giraldo, S.A. 2012: Photocatalytic production of 1O2 and *OH mediated by silver oxidation during the photoinactivation of Escherichia coli with TiO2. Journal of Hazardous Materials 211-212: 172-181
Fukuzumi, S.; Kobayashi, T.; Suenobu, T. 2011: Photocatalytic production of hydrogen by disproportionation of one-electron-reduced rhodium and iridium-ruthenium complexes in water. Angewandte Chemie 50(3): 728-731
Yamada, Y.; Nomura, A.; Miyahigashi, T.; Fukuzumi, S. 2012: Photocatalytic production of hydrogen peroxide by two-electron reduction of dioxygen with carbon-neutral oxalate using a 2-phenyl-4-(1-naphthyl)quinolinium ion as a robust photocatalyst. Chemical Communications 48(67): 8329-8331
Kormann, C.; Bahnemann, D.W.; Hoffmann, M.R. 1988: Photocatalytic production of hydrogen peroxides and organic peroxides in aqueous suspensions of titanium dioxide, zinc oxide, and desert sand. Environmental Science and Technology 22(7): 798-806
Žunič, V.; Vukomanović, M.; Škapin, S.čo.D.; Suvorov, D.; Kovač, J. 2014: Photocatalytic properties of TiO2 and TiO2/Pt: a sol-precipitation, sonochemical and hydrothermal approach. Ultrasonics Sonochemistry 21(1): 367-375
Yang, N.; Liu, Y.; Wen, H.; Tang, Z.; Zhao, H.; Li, Y.; Wang, D. 2013: Photocatalytic properties of graphdiyne and graphene modified TiO₂: from theory to experiment. Acs Nano 7(2): 1504-1512
McManamon, C.; Delaney, P.; Morris, M.A. 2013: Photocatalytic properties of metal and non-metal doped novel sub 10nm titanium dioxide nanoparticles on methyl orange. Journal of Colloid and Interface Science 411: 169-172
Yi, C.; Nirmala, R.; Barakat, N.A.M.; Navamathavan, R.; Kim, H-Yong. 2011: Photocatalytic properties of silver nanoparticles decorated nanobranched TiO2 nanofibers. Journal of Nanoscience and Nanotechnology 11(8): 6886-6892
Lee, H.; Park, S.H.; Kim, S.-J.; Kim, B.H.; Chung, M.; Ahn, H.-G.; Kim, S.-C.; Jung, S.-C. 2011: Photocatalytic properties of titanate nanotube powders prepared by alkaline hydrothermal method. Journal of Nanoscience and Nanotechnology 11(8): 7357-7360
Shibata, T.; Sakai, N.; Fukuda, K.; Ebina, Y.; Sasaki, T. 2007: Photocatalytic properties of titania nanostructured films fabricated from Titania nanosheets. Physical Chemistry Chemical Physics: Pccp 9(19): 2413-2420
Li, T.; Gao, S.; Li, F.; Cao, R. 2009: Photocatalytic property of a keggin-type polyoxometalates-containing bilayer system for degradation organic dye model. Journal of Colloid and Interface Science 338(2): 500-505
Bergeld, J.; Kasemo, B.; Chakarov, D. 2008: Photocatalytic reactions at the graphite/ice interface. Physical Chemistry Chemical Physics: Pccp 10(8): 1151-1155
Ma, H.; Brennan, A.; Diamond, S.A. 2012: Photocatalytic reactive oxygen species production and phototoxicity of titanium dioxide nanoparticles are dependent on the solar ultraviolet radiation spectrum. Environmental Toxicology and Chemistry 31(9): 2099-2107
Tucher, J.; Schlicht, S.; Kollhoff, F.; Streb, C. 2014: Photocatalytic reactivity tuning by heterometal and addenda metal variation in Lindqvist polyoxometalates. Dalton Transactions 43(45): 17029-17033
Qiao, L.; Bi, H.; Busnel, J.-M.; Waser, J.; Yang, P.; Girault, H.H.; Liu, B. 2009: Photocatalytic redox reactions for in-source peptide fragmentation. Chemistry 15(27): 6711-6717
Li, K.; Handoko, A.D.; Khraisheh, M.; Tang, J. 2014: Photocatalytic reduction of CO2 and protons using water as an electron donor over potassium tantalate nanoflakes. Nanoscale 6(16): 9767-9773
Qin, S.; Xin, F.; Liu, Y.; Yin, X.; Ma, W. 2011: Photocatalytic reduction of CO2 in methanol to methyl formate over CuO-TiO2 composite catalysts. Journal of Colloid and Interface Science 356(1): 257-261
Yu, J.; Wang, K.; Xiao, W.; Cheng, B. 2014: Photocatalytic reduction of CO2 into hydrocarbon solar fuels over g-C3N4-Pt nanocomposite photocatalysts. Physical Chemistry Chemical Physics: Pccp 16(23): 11492-11501
Habisreutinger, S.N.; Schmidt-Mende, L.; Stolarczyk, J.K. 2013: Photocatalytic reduction of CO2 on TiO2 and other semiconductors. Angewandte Chemie 52(29): 7372-7408
Srinivas, B.; Shubhamangala, B.; Lalitha, K.; Reddy, P.A.K.; Kumari, V.D.; Subrahmanyam, M.; De, B.R. 2011: Photocatalytic reduction of CO2 over Cu-TiO2 /molecular sieve 5A composite. Photochemistry and Photobiology 87(5): 995-1001
Xie, S.; Wang, Y.; Zhang, Q.; Fan, W.; Deng, W.; Wang, Y. 2013: Photocatalytic reduction of CO2 with H2O: significant enhancement of the activity of Pt-TiO2 in CH4 formation by addition of MgO. Chemical Communications 49(24): 2451-2453
Yui, T.; Tamaki, Y.; Sekizawa, K.; Ishitani, O. 2011: Photocatalytic reduction of CO₂: from molecules to semiconductors. Topics in Current Chemistry 303: 151-184
Yang, T-C.; Chang, F-C.; Peng, C-Y.; Wang, H.Paul.; Wei, Y-L. 2015: Photocatalytic reduction of CO₂with SiC recovered from silicon sludge wastes. Environmental Technology 36(23): 2987-2990
Siboni, M.Shirzad.; Samadi, M.T.; Yang, J.K.; Lee, S.M. 2011: Photocatalytic reduction of Cr(VI) and Ni(II) in aqueous solution by synthesized nanoparticle ZnO under ultraviolet light irradiation: a kinetic study. Environmental Technology 32(13-14): 1573-1579
Xu, Z.; Bai, S.; Liang, J.; Zhou, L.; Lan, Y. 2013: Photocatalytic reduction of Cr(VI) by citric and oxalic acids over biogenetic jarosite. Materials Science and Engineering. C Materials for Biological Applications 33(4): 2192-2196
Jiang, D.; Li, Y.; Wu, Y.; Zhou, P.; Lan, Y.; Zhou, L. 2012: Photocatalytic reduction of Cr(VI) by small molecular weight organic acids over schwertmannite. Chemosphere 89(7): 832-837
Delgado-Balderas, R.; Hinojosa-Reyes, L.; Guzmán-Mar, J.L.; Garza-González, M.T.; López-Chuken, U.J.; Hernández-Ramírez, A. 2012: Photocatalytic reduction of Cr(VI) from agricultural soil column leachates using zinc oxide under UV light irradiation. Environmental Technology 33(22-24): 2673-2680
Pozzo, R.L.; Conte, L.O.; Giombi, J.L.; Baltanás, M.A. 2011: Photocatalytic reduction of Cr(VI) in a fully illuminated fluidized bed reactor. Water Science and Technology: a Journal of the International Association on Water Pollution Research 64(12): 2370-2375
Ku, Y.; Lin, C-Nan.; Hou, W-Ming. 2012: Photocatalytic reduction of Cr(VI) in aqueous solution using TiO₂ nanoparticles prepared with various alcohols as solvent. Water Science and Technology: a Journal of the International Association on Water Pollution Research 66(6): 1333-1339
Gherbi, R.; Nasrallah, N.; Amrane, A.; Maachi, R.; Trari, M. 2011: Photocatalytic reduction of Cr(VI) on the new hetero-system CuAl2O4/TiO2. Journal of Hazardous Materials 186(2-3): 1124-1130
Nasrallah, N.; Kebir, M.; Koudri, Z.; Trari, M. 2011: Photocatalytic reduction of Cr(VI) on the novel hetero-system CuFe(2)O(4)/CdS. Journal of Hazardous Materials 185(2-3): 1398-1404
Yu, Y-Hui.; Su, I-Hsuan.; Wu, J.C.S. 2010: Photocatalytic reduction of NO pollutant using an optical-fibre photoreactor at room temperature. Environmental Technology 31(13): 1449-1458
Jin, R.; Wu, Z.; Liu, Y.; Jiang, B.; Wang, H. 2009: Photocatalytic reduction of NO with NH3 using Si-doped TiO2 prepared by hydrothermal method. Journal of Hazardous Materials 161(1): 42-48
Oppelt, K.T.; Wöß, E.; Stiftinger, M.; Schöfberger, W.; Buchberger, W.; Knör, G.ün. 2013: Photocatalytic reduction of artificial and natural nucleotide co-factors with a chlorophyll-like tin-dihydroporphyrin sensitizer. Inorganic Chemistry 52(20): 11910-11922
Imamura, K.; Yoshikawa, T.; Nakanishi, K.; Hashimoto, K.; Kominami, H. 2013: Photocatalytic reduction of benzonitrile to benzylamine in aqueous suspensions of palladium-loaded titanium(IV) oxide. Chemical Communications 49(93): 10911-10913
Kang, Q.; Wang, T.; Li, P.; Liu, L.; Chang, K.; Li, M.; Ye, J. 2015: Photocatalytic reduction of carbon dioxide by hydrous hydrazine over Au-Cu alloy nanoparticles supported on SrTiO3/TiO2 coaxial nanotube arrays. Angewandte Chemie 54(3): 841-845
Iizuka, K.; Wato, T.; Miseki, Y.; Saito, K.; Kudo, A. 2011: Photocatalytic reduction of carbon dioxide over Ag cocatalyst-loaded ALa4Ti4O15 (A = Ca, Sr, and Ba) using water as a reducing reagent. Journal of the American Chemical Society 133(51): 20863-20868
Zhang, Q.; Lin, C-Fang.; Jing, Y.Hai.; Chang, C-Tang. 2014: Photocatalytic reduction of carbon dioxide to methanol and formic acid by graphene-TiO2. Journal of the Air and Waste Management Association 64(5): 578-585
Liu, S.; Zhao, Z.; Wang, Z. 2007: Photocatalytic reduction of carbon dioxide using sol-gel derived titania-supported CoPc catalysts. Photochemical and Photobiological Sciences: Official Journal of the European Photochemistry Association and the European Society for Photobiology 6(6): 695-700
Samarghandi, M-Reza.; Yang, J-Kyu.; Giahi, O.; Shirzad-Siboni, M. 2015: Photocatalytic reduction of hexavalent chromium with illuminated amorphous FeOOH. Environmental Technology 36(9-12): 1132-1140
Park, S.; Kim, H.-J.; Kim, J.S.; Yoo, K.; Lee, J.C.; Anderson, W.A.; Lee, J.-H. 2007: Photocatalytic reduction of nitrate in wastewater using ZnO nanopowder synthesized by solution combustion method. Journal of Nanoscience and Nanotechnology 7(11): 4069-4072
Tang, L.-n.; Liu, L.-f.; Dong, X.-y.; Yang, F.-l. 2008: Photocatalytic reduction of nitrate using metal-doped titania. Huan Jing Ke Xue= Huanjing Kexue 29(9): 2536-2541
Yang, T.; Doudrick, K.; Westerhoff, P. 2013: Photocatalytic reduction of nitrate using titanium dioxide for regeneration of ion exchange brine. Water Research 47(3): 1299-1307
Gekko, H.; Hashimoto, K.; Kominami, H. 2012: Photocatalytic reduction of nitrite to dinitrogen in aqueous suspensions of metal-loaded titanium(IV) oxide in the presence of a hole scavenger: an ensemble effect of silver and palladium co-catalysts. Physical Chemistry Chemical Physics: Pccp 14(22): 7965-7970
Imamura, K.; Iwasaki, S.-i.; Maeda, T.; Hashimoto, K.; Ohtani, B.; Kominami, H. 2011: Photocatalytic reduction of nitrobenzenes to aminobenzenes in aqueous suspensions of titanium(IV) oxide in the presence of hole scavengers under deaerated and aerated conditions. Physical Chemistry Chemical Physics: Pccp 13(11): 5114-5119
Chang, P.; Cheng, H.; Li, W.; Zhuo, L.; He, L.; Yu, Y.; Zhao, F. 2014: Photocatalytic reduction of o-chloronitrobenzene under visible light irradiation over CdS quantum dot sensitized TiO2. Physical Chemistry Chemical Physics: Pccp 16(31): 16606-16614
Sturini, M.; Rivagli, E.; Maraschi, F.; Speltini, A.; Profumo, A.; Albini, A. 2013: Photocatalytic reduction of vanadium(V) in TiO₂ suspension: chemometric optimization and application to wastewaters. Journal of Hazardous Materials 254-255: 179-184
Xian, T.; Yang, H.; Di, L.; Ma, J.; Zhang, H.; Dai, J. 2014: Photocatalytic reduction synthesis of SrTiO3-graphene nanocomposites and their enhanced photocatalytic activity. Nanoscale Research Letters 9(1): 327
Fuku, K.; Hashimoto, K.; Kominami, H. 2010: Photocatalytic reductive dechlorination of chlorobenzene to benzene in 2-propanol suspension of metal-loaded titanium(IV) oxide nanocrystals in the presence of dissolved sodium hydroxide. Chemical Communications 46(28): 5118-5120
Wei, H.; Li, K.-B.; Li, J.; Chen, J.-T.; Zhang, T. 2013: Photocatalytic reductive degradation of direct red 4BE by phosphotungstic acid. Huan Jing Ke Xue= Huanjing Kexue 34(6): 2271-2276
Zhang, L.; Shi, J.; Liu, M.; Jing, D.; Guo, L. 2014: Photocatalytic reforming of glucose under visible light over morphology controlled Cu2O: efficient charge separation by crystal facet engineering. Chemical Communications 50(2): 192-194
Khataee, A.R. 2009: Photocatalytic removal of C.I. Basic Red 46 on immobilized TiO2 nanoparticles: artificial neural network modelling. Environmental Technology 30(11): 1155-1168
Lee, J.C.; Kim, H.-S.; Lee, J.-H.; Park, S. 2008: Photocatalytic removal of Cu ions from aqueous Cu-EDTA solution using solution combusted zinc oxide nanopowder. Journal of Nanoscience and Nanotechnology 8(10): 5284-5287
Alikhani, M-Yousef.; Lee, S-Mok.; Yang, J-Kyu.; Shirzad-Siboni, M.; Peeri-Dogaheh, H.; Khorasani, M-Seyedin.; Nooshak, M-Ali.; Samarghandi, M-Reza. 2013: Photocatalytic removal of Escherichia coli from aquatic solutions using synthesized ZnO nanoparticles: a kinetic study. Water Science and Technology: a Journal of the International Association on Water Pollution Research 67(3): 557-563
Ketir, W.; Bouguelia, A.; Trari, M. 2008: Photocatalytic removal of M(2+) (Ni(2+), Cu(2+), Zn(2+), Cd(2+), Hg(2+) and Ag(+)) over new catalyst CuCrO(2). Journal of Hazardous Materials 158(2-3): 257-263
Ai, Z.; Lee, S.; Huang, Y.; Ho, W.; Zhang, L. 2010: Photocatalytic removal of NO and HCHO over nanocrystalline Zn2SnO4 microcubes for indoor air purification. Journal of Hazardous Materials 179(1-3): 141-150
Nguyen, N.H.; Bai, H. 2014: Photocatalytic removal of NO and NO2 using titania nanotubes synthesized by hydrothermal method. Journal of Environmental Sciences 26(5): 1180-1187
Siboni, M.S.; Samarghandi, M.R.; Yang, J.-K.; Lee, S.-M. 2011: Photocatalytic removal of cyanide with illuminated TiO(2). Water Science and Technology: a Journal of the International Association on Water Pollution Research 64(7): 1383-1387
Hu, X.-Y.; Fan, J.; Zhang, K.-L.; Wang, J.-J. 2012: Photocatalytic removal of organic pollutants in aqueous solution by Bi(4)Nb(x)Ta((1-x))O(8)i. Chemosphere 87(10): 1155-1160
Labaran, B.A.; Vohra, M.S. 2014: Photocatalytic removal of selenite and selenate species: effect of EDTA and other process variables. Environmental Technology 35(9-12): 1091-1100
Smits, M.; Ling, Y.; Lenaerts, S.; Van Doorslaer, S. 2012: Photocatalytic removal of soot: unravelling of the reaction mechanism by EPR and in situ FTIR spectroscopy. Chemphyschem: a European Journal of Chemical Physics and Physical Chemistry 13(18): 4251-4257
Wang, W.; Li, Q.; Yang, B.; Liu, X.; Yang, Y.; Su, W. 2012: Photocatalytic reversible amination of α-keto acids on a ZnS surface: implications for the prebiotic metabolism. Chemical Communications 48(15): 2146-2148
Tung, W.S.; Daoud, W.A. 2009: Photocatalytic self-cleaning keratins: a feasibility study. Acta Biomaterialia 5(1): 50-56
Seo, H.; Joo, J.; Ko, W.; Jung, N.; Jeon, S. 2010: Photocatalytic silver enhancement reaction for gravimetric immunosensors. Nanotechnology 21(50): 505502
Negishi, N.; Sano, T. 2014: Photocatalytic solar tower reactor for the elimination of a low concentration of VOCs. Molecules 19(10): 16624-16639
Livanov, K.; Madhu, V.; Balaraman, E.; Shimon, L.J.W.; Diskin-Posner, Y.; Neumann, R. 2011: Photocatalytic splitting of CS2 to S8 and a carbon-sulfur polymer catalyzed by a bimetallic ruthenium(II) compound with a tertiary amine binding site: toward photocatalytic splitting of CO2?. Inorganic Chemistry 50(22): 11273-11275
Yang, T-C.; Chang, F-C.; Wang, H.Paul.; Wei, Y-L.; Jou, C-J. 2014: Photocatalytic splitting of seawater effected by (Ni-ZnO)@C nanoreactors. Marine Pollution Bulletin 85(2): 696-699
Mittal, M.; Sharma, M.; Pandey, O.P. 2014: Photocatalytic studies of crystal violet dye using mn doped and PVP capped ZnO nanoparticles. Journal of Nanoscience and Nanotechnology 14(4): 2725-2733
Schroll, P.; Fehl, C.; Dankesreiter, S.; König, B. 2013: Photocatalytic surface patterning of cellulose using diazonium salts and visible light. Organic and Biomolecular Chemistry 11(38): 6510-6514
Lu, Q.; Lu, Z.; Lu, Y.; Lv, L.; Ning, Y.; Yu, H.; Hou, Y.; Yin, Y. 2013: Photocatalytic synthesis and photovoltaic application of Ag-TiO2 nanorod composites. Nano Letters 13(11): 5698-5702
Qiu, J.; Zhang, P.; Ling, M.; Li, S.; Liu, P.; Zhao, H.; Zhang, S. 2012: Photocatalytic synthesis of TiO(2) and reduced graphene oxide nanocomposite for lithium ion battery. Acs Applied Materials and Interfaces 4(7): 3636-3642
Kreis, L.M.; Krautwald, S.; Pfeiffer, N.; Martin, R.E.; Carreira, E.M. 2013: Photocatalytic synthesis of allylic trifluoromethyl substituted styrene derivatives in batch and flow. Organic Letters 15(7): 1634-1637
Blum, T.R.; Zhu, Y.; Nordeen, S.A.; Yoon, T.P. 2014: Photocatalytic synthesis of dihydrobenzofurans by oxidative [3+2] cycloaddition of phenols. Angewandte Chemie 53(41): 11056-11059
Jang, J.-W.; Cho, S.; Moon, G.-h.; Ihm, K.; Kim, J.Y.; Youn, D.H.; Lee, S.; Lee, Y.h.; Choi, W.; Lee, K.-H.; Lee, J.S. 2012: Photocatalytic synthesis of pure and water-dispersible graphene monosheets. Chemistry 18(10): 2762-2767
Srinivas, B.; Kumari, V.D.; Sadanandam, G.; Hymavathi, C.; Subrahmanyam, M.; De, B.R. 2012: Photocatalytic synthesis of urea from in situ generated ammonia and carbon dioxide. Photochemistry and Photobiology 88(2): 233-241
Kinsinger, N.; Tantuccio, A.; Sun, M.; Yan, Y.; Kisailus, D. 2011: Photocatalytic titanium dioxide composite. Journal of Nanoscience and Nanotechnology 11(8): 7015-7021
Fenoll, J.é; Sabater, P.; Navarro, G.; Pérez-Lucas, G.; Navarro, S.ón. 2013: Photocatalytic transformation of sixteen substituted phenylurea herbicides in aqueous semiconductor suspensions: intermediates and degradation pathways. Journal of Hazardous Materials 244-245: 370-379
Durán, A.; Monteagudo, J.M.; San Martín, I.; Sánchez-Romero, R. 2009: Photocatalytic treatment of IGCC power station effluents in a UV-pilot plant. Journal of Hazardous Materials 167(1-3): 885-891
Durán, A.; Monteagudo, J.M.; San Martín, I. 2012: Photocatalytic treatment of an industrial effluent using artificial and solar UV radiation: an operational cost study on a pilot plant scale. Journal of Environmental Management 98: 1-4
Josset, S.éb.; Taranto, J.ér.ôm.; Keller, N.; Keller, V.ér.; Lett, M.-C. 2010: Photocatalytic treatment of bioaerosols: impact of the reactor design. Environmental Science and Technology 44(7): 2605-2611
Chong, M.N.; Jin, B. 2012: Photocatalytic treatment of high concentration carbamazepine in synthetic hospital wastewater. Journal of Hazardous Materials 199-200: 135-142
Shahmoradi, B.; Ibrahim, I.A.; Sakamoto, N.; Ananda, S.; Somashekar, R.; Row, T.N.Guru.; Byrappa, K. 2010: Photocatalytic treatment of municipal wastewater using modified neodymium doped TiO(2) hybrid nanoparticles. Journal of Environmental Science and Health. Part A Toxic/Hazardous Substances and Environmental Engineering 45(10): 1248-1255
Navalon, S.; Alvaro, M.; Garcia, H.; Escrig, D.; Costa, V.íc. 2009: Photocatalytic water disinfection of Cryptosporidium parvum and Giardia lamblia using a fibrous ceramic TiO(2) photocatalyst. Water Science and Technology: a Journal of the International Association on Water Pollution Research 59(4): 639-645
Al-Oweini, R.; Sartorel, A.; Bassil, B.S.; Natali, M.; Berardi, S.; Scandola, F.; Kortz, U.; Bonchio, M. 2014: Photocatalytic water oxidation by a mixed-valent Mn(III)₃Mn(IV)O₃ manganese oxo core that mimics the natural oxygen-evolving center. Angewandte Chemie 53(42): 11182-11185
Zhou, X.; Li, F.; Li, H.; Zhang, B.; Yu, F.; Sun, L. 2014: Photocatalytic water oxidation by molecular assemblies based on cobalt catalysts. Chemsuschem 7(9): 2453-2456
Zong, X.; Xing, Z.; Yu, H.; Chen, Z.; Tang, F.; Zou, J.; Lu, G.Qing.; Wang, L. 2011: Photocatalytic water oxidation on F, N co-doped TiO2 with dominant exposed {001} facets under visible light. Chemical Communications 47(42): 11742-11744
Frame, F.A.; Townsend, T.K.; Chamousis, R.L.; Sabio, E.M.; Dittrich, T.; Browning, N.D.; Osterloh, F.E. 2011: Photocatalytic water oxidation with nonsensitized IrO2 nanocrystals under visible and UV light. Journal of the American Chemical Society 133(19): 7264-7267
Berardi, S.; La Ganga, G.; Natali, M.; Bazzan, I.; Puntoriero, F.; Sartorel, A.; Scandola, F.; Campagna, S.; Bonchio, M. 2012: Photocatalytic water oxidation: tuning light-induced electron transfer by molecular Co4O4 cores. Journal of the American Chemical Society 134(27): 11104-11107
Li, X.; Wang, M.; Chen, L.; Wang, X.; Dong, J.; Sun, L. 2012: Photocatalytic water reduction and study of the formation of Fe(i)Fe(0) species in diiron catalyst systems. Chemsuschem 5(5): 913-919
Luo, S.-P.; Mejía, E.; Friedrich, A.; Pazidis, A.; Junge, H.; Surkus, A.-E.; Jackstell, R.; Denurra, S.; Gladiali, S.; Lochbrunner, S.; Beller, M. 2013: Photocatalytic water reduction with copper-based photosensitizers: a noble-metal-free system. Angewandte Chemie 52(1): 419-423
Zhang, T.; Zhao, K.; Yu, J.; Jin, J.; Qi, Y.; Li, H.; Hou, X.; Liu, G. 2013: Photocatalytic water splitting for hydrogen generation on cubic, orthorhombic, and tetragonal KNbO3 microcubes. Nanoscale 5(18): 8375-8383
Manikandan, M.; Tanabe, T.; Li, P.; Ueda, S.; Ramesh, G.V.; Kodiyath, R.; Wang, J.; Hara, T.; Dakshanamoorthy, A.; Ishihara, S.; Ariga, K.; Ye, J.; Umezawa, N.; Abe, H. 2014: Photocatalytic water splitting under visible light by mixed-valence Sn(3)O(4). Acs Applied Materials and Interfaces 6(6): 3790-3793
Ohno, T.; Bai, L.; Hisatomi, T.; Maeda, K.; Domen, K. 2012: Photocatalytic water splitting using modified GaN:ZnO solid solution under visible light: long-time operation and regeneration of activity. Journal of the American Chemical Society 134(19): 8254-8259
Ahmad, M.; Ahmed, E.; Hong, Z.L.; Ahmed, W.; Elhissi, A.; Khalid, N.R. 2014: Photocatalytic, sonocatalytic and sonophotocatalytic degradation of Rhodamine B using ZnO/CNTs composites photocatalysts. Ultrasonics Sonochemistry 21(2): 761-773
Matafonova, G.G.; Batoev, V.B.; Linden, K.G. 2013: Photocatalytic-based inactivation of E. coli by UV 282 nm XeBr Excilamp. Journal of Environmental Science and Health. Part A Toxic/Hazardous Substances and Environmental Engineering 48(13): 1670-1676
Matejka, V.; Tokarský, J.ás. 2014: Photocatalytical nanocomposites: a review. Journal of Nanoscience and Nanotechnology 14(2): 1597-1616
Wang, L.; Yan, X.; Xu, C.; Xiao, Z.; Yang, L.; Zhang, B.; Wang, Q. 2011: Photocatalytical reduction of disulphide bonds in peptides on Ag-loaded nano-TiO2 for subsequent derivatization and determination. Analyst 136(18): 3602-3604
Rivera-Reyna, N.; Hinojosa-Reyes, L.; Guzmán-Mar, J.L.; Cai, Y.; O'Shea, K.; Hernández-Ramírez, A. 2013: Photocatalytical removal of inorganic and organic arsenic species from aqueous solution using zinc oxide semiconductor. Photochemical and Photobiological Sciences: Official Journal of the European Photochemistry Association and the European Society for Photobiology 12(4): 653-659
Dontsova, D.; Keller, Vérie.; Keller, N.; Steffanut, P.; Félix, O.; Decher, G. 2011: Photocatalytically active polyelectrolyte/nanoparticle films for the elimination of a model odorous gas. Macromolecular Rapid Communications 32(15): 1145-1149
Ding, H.; Li, Y.; Lu, A.; Jin, S.; Quan, C.; Wang, C.; Wang, X.; Zeng, C.; Yan, Y. 2010: Photocatalytically improved azo dye reduction in a microbial fuel cell with rutile-cathode. Bioresource Technology 101(10): 3500-3505
Hayashi, M.; Jimbo, R.; Xue, Y.; Mustafa, K.; Andersson, M.; Wennerberg, A. 2014: Photocatalytically induced hydrophilicity influences bone remodelling at longer healing periods: a rabbit study. Clinical Oral Implants Research 25(6): 749-754
Wang, H.; Duan, J.; Cheng, Q. 2011: Photocatalytically patterned TiO2 arrays for on-plate selective enrichment of phosphopeptides and direct MALdi MS analysis. Analytical Chemistry 83(5): 1624-1631
Look, E.G.; Gafney, H.D. 2013: Photocatalyzed conversion of CO2 to CH4: an excited-state acid-base mechanism. Journal of Physical Chemistry. a 117(47): 12268-12279
Guillo, P.; Hamelin, O.; Batat, P.; Jonusauskas, G.; McClenaghan, N.D.; Ménage, S.ép. 2012: Photocatalyzed sulfide oxygenation with water as the unique oxygen atom source. Inorganic Chemistry 51(4): 2222-2230
Yang, L.; Li, L.; Tu, Q.; Ren, L.; Zhang, Y.; Wang, X.; Zhang, Z.; Liu, W.; Xin, L.; Wang, J. 2010: Photocatalyzed surface modification of poly(dimethylsiloxane) with polysaccharides and assay of their protein adsorption and cytocompatibility. Analytical Chemistry 82(15): 6430-6439
Lakes, R.; Poultney, S.K. 1970: Photocathode Quantum Efficiency Enhancement of the RCA 31000E Photomultiplier at 6328 a. Applied Optics 9(9): 2192-2193
Mottaghian, M.; Koohi-Fayegh, R.; Ghal-Eh, N.; Etaati, G.R. 2010: Photocathode non-uniformity contribution to the energy resolution of scintillators. Radiation Protection Dosimetry 140(1): 16-24
Wang, C.; Cao, D.; Zheng, F.; Dong, W.; Fang, L.; Su, X.; Shen, M. 2013: Photocathodic behavior of ferroelectric Pb(Zr,Ti)O(3) films decorated with silver nanoparticles. Chemical Communications 49(36): 3769-3771
Tanaka, T.; Ogino, H.; Iwamoto, M. 2007: Photochange in pore diameters of azobenzene-planted mesoporous silica materials. Langmuir 23(23): 11417-11420
Oter, O.; Ertekin, K.; Dayan, O.; Cetinkaya, B. 2008: Photocharacterization of novel ruthenium dyes and their utilities as oxygen sensing materials in presence of perfluorochemicals. Journal of Fluorescence 18(2): 269-276
Polishchuk, A.; Emelina, T.; Karaseva, E.; Cramariuc, O.; Chukharev, V.; Karasev, V. 2014: Photochemical Behavior and Photolysis of Protonated Forms of Levofloxacin. Photochemistry and Photobiology 90(1): 79-84
Bucher, G.öt.; Mahajan, A.A.; Schmittel, M. 2008: Photochemical C2-C6 cyclization of enyne-allenes: detection of a fulvene triplet diradical in the laser flash photolysis. Journal of Organic Chemistry 73(22): 8815-8828
Lusic, H.; Young, D.D.; Lively, M.O.; Deiters, A. 2007: Photochemical DNA activation. Organic Letters 9(10): 1903-1906
Hutzinger, O.; Safe, S.; Zitko, V. 1972: Photochemical Degradation of Chloro-biphenyls (PCBs). Environmental Health Perspectives 1: 15-20
Grossweiner, L.I.; Swenson, G.W.; Zwicker, E.F. 1963: Photochemical Generation of the Hydrated Electron. Science 141(3583): 805-806
Zhang, P.; Wang, M.; Li, C.; Li, X.; Dong, J.; Sun, L. 2010: Photochemical H2 with noble-metal-free molecular devices comprising a porphyrin photosensitizer and a cobaloxime catalyst. Chemical Communications 46(46): 8806-8808
Jaworska, M.; Stopa, G.; Stasicka, Z. 2010: Photochemical NO-removal and NOx-release in the presence of Fe-EDTA complexes. DFT calculations of electronic structure and spectroscopy of the [Fe(edta)(NO)]2- complex. Nitric Oxide: Biology and Chemistry 23(3): 227-233
Zobell, C.E. 1933: Photochemical Nitrification in Sea Water. Science 77(1984): 27-28
Scaiano, J.C.; Stamplecoskie, K.G.; Hallett-Tapley, G.L. 2012: Photochemical Norrish type I reaction as a tool for metal nanoparticle synthesis: importance of proton coupled electron transfer. Chemical Communications 48(40): 4798-4808
Rakestraw, N.W.; Hollaender, A. 1936: Photochemical Oxidation of Ammonia in Sea Water. Science 84(2185): 442-443
Higashi, K.; Hosoyama, S.; Ohno, A.; Masuko, S.; Yang, B.; Sterner, E.; Wang, Z.; Linhardt, R.J.; Toida, T. 2012: Photochemical Preparation of a Novel Low Molecular Weight Heparin. Carbohydrate Polymers 67(2): 1737-1743
Grossweiner, L.I.; Zwicker, E.F.; Swenson, G.W. 1963: Photochemical Production of the Solvated Electron in Ethanol. Science 141(3586): 1180
Stewart, G.; Smith, K.; Chornes, A.; Harris, T.; Honeysucker, T.; Dasary, S.R.; Yu, H. 2010: Photochemical Reaction of Nitro-Polycyclic Aromatic Hydrocarbons: Effect by Solvent and Structure. Environmental Chemistry Letters 8(4): 301-306
Yu, H.; Yan, J.; Jiao, Y. 2005: Photochemical Reaction of 7,12-Dimethylbenz[a]anthracene (DMBA) and Formation of DNA Covalent Adducts. International Journal of Environmental Research and Public Health 2(1): 114-122
Procacci, B.; Blagg, R.J.; Perutz, R.N.; Rendón, N.; Whitwood, A.C. 2014: Photochemical Reactions of Fluorinated Pyridines at Half-Sandwich Rhodium Complexes: Competing Pathways of Reaction. Organometallics 33(1): 45-52
Miller, A.; Brown, C.; Franson, K.D. 1956: Photochemical Reactions of Nitrogen Dioxide and Hydrocarbons in Air. Science 123(3204): 934
Heredia-Moya, J.; Kirk, K.L. 2007: Photochemical Schiemann Reaction in Ionic Liquids. Journal of Fluorine Chemistry 128(6): 674-678
Pizano, A.A.; Yang, J.L.; Nocera, D.G. 2012: Photochemical Tyrosine Oxidation with a Hydrogen-Bonded Proton Acceptor by Bidirectional Proton-Coupled Electron Transfer. Chemical Science 3(8): 2457-2461
Cordes, T.; Heinz, B.ör.; Regner, N.; Hoppmann, C.; Schrader, T.E.; Summerer, W.; Rück-Braun, K.; Zinth, W. 2007: Photochemical Z-->E isomerization of a hemithioindigo/hemistilbene omega-amino acid. Chemphyschem: a European Journal of Chemical Physics and Physical Chemistry 8(11): 1713-1721
Nagarathinam, M.; Vittal, J.J. 2008: Photochemical [2 + 2] cycloaddition as a tool to study a solid-state structural transformation. Chemical Communications 4: 438-440
Bradley, S.A.; Bresnan, B.J.; Draper, S.M.; Geraghty, N.W.A.; Jeffares, M.; McCabe, T.; McMurry, T.B.H.; O'Brien, J.E. 2011: Photochemical [2 + 2] cycloaddition reactions of 6-alkenyl-3-phenylcyclohex-2-en-1-ones: using biradical conformation control to account for exceptions to the "rule of five". Organic and Biomolecular Chemistry 9(8): 2959-2968
Wang, T.; Peng, Y.; Shen, N.; Yu, Y.; Yao, M.; Zhu, J. 2014: Photochemical activation increases the porcine corneal stiffness and resistance to collagenase digestion. Experimental Eye Research 123: 97-104
Tanabe, K.K.; Allen, C.A.; Cohen, S.M. 2010: Photochemical activation of a metal-organic framework to reveal functionality. Angewandte Chemie 49(50): 9730-9733
Izzet, G.; Ishow, E.; Delaire, J.; Afonso, C.; Tabet, J.-C.; Proust, A. 2009: Photochemical activation of an azido manganese-monosubstituted keggin polyoxometalate: on the road to a Mn(V)-nitrido derivative. Inorganic Chemistry 48(24): 11865-11870
Gianolio, E.; Arena, F.; Strijkers, G.J.; Nicolay, K.; Högset, A.; Aime, S. 2011: Photochemical activation of endosomal escape of MRI-Gd-agents in tumor cells. Magnetic Resonance in Medicine 65(1): 212-219
Soto, M.; Sebastián, R.M.ía.; Marquet, J. 2014: Photochemical activation of extremely weak nucleophiles: highly fluorinated urethanes and polyurethanes from polyfluoro alcohols. Journal of Organic Chemistry 79(11): 5019-5027
Young, D.D.; Deiters, A. 2007: Photochemical activation of protein expression in bacterial cells. Angewandte Chemie 46(23): 4290-4292
Kojima, T.; Nakayama, K.; Sakaguchi, M.; Ogura, T.; Ohkubo, K.; Fukuzumi, S. 2011: Photochemical activation of ruthenium(II)-pyridylamine complexes having a pyridine-N-oxide pendant toward oxygenation of organic substrates. Journal of the American Chemical Society 133(44): 17901-17911
Bull-Hansen, B.; Cao, Y.; Berg, K.; Skarpen, E.; Rosenblum, M.G.; Weyergang, A. 2014: Photochemical activation of the recombinant HER2-targeted fusion toxin MH3-B1/rGel; Impact of HER2 expression on treatment outcome. Journal of Controlled Release: Official Journal of the Controlled Release Society 182: 58-66
Sampath, P.; Kulandaivelu, G. 1983: Photochemical activities and organization of photosynthetic apparatus of C3 and C 4 plants grown under different light intensities. Photosynthesis Research 4(4): 351-360
Hwu, J.R.; Huang, J.J.-T.; Tsai, F.-Y.; Tsay, S.-C.; Hsu, M.-H.; Hwang, K.C.; Horng, J.-C.; Ho, J.-A.A.; Lin, C.-C. 2009: Photochemical activities of N-nitroso carboxamides and sulfoximides and their application to DNA cleavage. Chemistry 15(35): 8742-8750
Mell, V.; Senger, H. 1978: Photochemical activities, pigment distribution and photosynthetic unit size of subchloroplast particles isolated from synchronized cells of Scenedesmus obliquus. Planta 143(3): 315-322
Nagatsuka, J.; Sugitani, S.; Kako, M.; Nakahodo, T.; Mizorogi, N.; Ishitsuka, M.O.; Maeda, Y.; Tsuchiya, T.; Akasaka, T.; Gao, X.; Nagase, S. 2010: Photochemical addition of C60 with siliranes: synthesis and characterization of carbosilylated and hydrosilylated C60 derivatives. Journal of the American Chemical Society 132(34): 12106-12120
Tzirakis, M.D.; Orfanopoulos, M. 2010: Photochemical addition of ethers to C60: synthesis of the simplest [60]fullerene/crown ether conjugates. Angewandte Chemie 49(34): 5891-5893
Lal, B.B. 1947: Photochemical after-effect in the decomposition of hydrogen peroxide by potassium ferrocyanide. Current Science 16(4): 118
Sareen, N.; Moussa, S.G.; McNeill, V.F. 2013: Photochemical aging of light-absorbing secondary organic aerosol material. Journal of Physical Chemistry. a 117(14): 2987-2996
Henry, K.M.; Donahue, N.M. 2012: Photochemical aging of α-pinene secondary organic aerosol: effects of OH radical sources and photolysis. Journal of Physical Chemistry. a 116(24): 5932-5940
Maheswari, M.A.; Lamshöft, M.; Sukul, P.; Spiteller, P.; Zühlke, S.; Spiteller, M. 2010: Photochemical analysis of 14C-fenhexamid in aqueous solution and structural elucidation of a new metabolite. Chemosphere 81(7): 844-852
Aaron, J.J.; Fidanza, J. 1982: Photochemical analysis studies-IIi a fluorimetric and ultraviolet spectrophotometric study of the photolysis of chloroquine on silica-gel thin layers, and its analytical application. Talanta 29(5): 383-389
Aaron, J.J.; Pidanza, J.; Gaye, M.D. 1983: Photochemical analysis studies-V Photochemical enhancement of the fluorescence signal of the antimalarial plasmocid in liquid solution and on silica-gel thin layers. Talanta 30(9): 649-654
Tarbell, D.S.; Hoffmeister, E.H. 1964: Photochemical and Thermal Transformations of Carboxylic Dithiocarbamic Anhydrides and Related Compounds. Science 144(3618): 568
Lee, I.; Mackeyev, Y.; Cho, M.; Li, D.; Kim, J.-H.; Wilson, L.J.; Alvarez, P.J.J. 2009: Photochemical and antimicrobial properties of novel C60 derivatives in aqueous systems. Environmental Science and Technology 43(17): 6604-6610
Mathew, T.V.; Kuriakose, S. 2013: Photochemical and antimicrobial properties of silver nanoparticle-encapsulated chitosan functionalized with photoactive groups. Materials Science and Engineering. C Materials for Biological Applications 33(7): 4409-4415
Chow, A.T.; Díaz, F.J.; Wong, K.-H.; O'Geen, A.T.; Dahlgren, R.A.; Wong, P.-K. 2013: Photochemical and bacterial transformations of disinfection by-product precursors in water. Journal of Environmental Quality 42(5): 1589-1595
Duarte, B.; Santos, D.; Silva, H.; Marques, J.C.; Caçador, I. 2014: Photochemical and biophysical feedbacks of C₃ and C₄ Mediterranean halophytes to atmospheric CO₂ enrichment confirmed by their stable isotope signatures. Plant Physiology and Biochemistry (Paris) 80: 10-22
Newby, J.J.; Stearns, J.A.; Liu, C.-P.; Zwier, T.S. 2007: Photochemical and discharge-driven pathways to aromatic products from 1,3-butadiene. Journal of Physical Chemistry. a 111(43): 10914-10927
Riskin, M.; Gutkin, V.; Felner, I.; Willner, I. 2008: Photochemical and electrochemical encoding of erasable magnetic patterns. Angewandte Chemie 47(23): 4416-4420
Santos, L.; Santos, E.B.H.; Dias, J.M.; Cunha, A.; Almeida, A. 2014: Photochemical and microbial alterations of DOM spectroscopic properties in the estuarine system Ria de Aveiro. Photochemical and Photobiological Sciences: Official Journal of the European Photochemistry Association and the European Society for Photobiology 13(8): 1146-1159
Polyakov, N.E.; Magyar, A.; Kispert, L.D. 2013: Photochemical and optical properties of water-soluble xanthophyll antioxidants: aggregation vs complexation. Journal of Physical Chemistry. B 117(35): 10173-10182
Fu, P.; Kawamura, K.; Barrie, L.A. 2009: Photochemical and other sources of organic compounds in the Canadian high arctic aerosol pollution during winter-spring. Environmental Science and Technology 43(2): 286-292
Miolo, G.; Salvador, A.; Mazzoli, A.; Spalletti, A.; Marzaro, G.; Chilin, A. 2014: Photochemical and photobiological studies on furoquinazolines as new psoralen analogs. Journal of Photochemistry and Photobiology. B Biology 138: 43-54
Silva, C.áu.G.; Monteiro, J.; Marques, R.R.N.; Silva, A.án.M.T.; Martínez, C.; Canle, M.és.; Faria, J.L.ís. 2013: Photochemical and photocatalytic degradation of trans-resveratrol. Photochemical and Photobiological Sciences: Official Journal of the European Photochemistry Association and the European Society for Photobiology 12(4): 638-644
Vredenberg, W.; Durchan, M.; Prásil, O. 2009: Photochemical and photoelectrochemical quenching of chlorophyll fluorescence in photosystem Ii. Biochimica et Biophysica Acta 1787(12): 1468-1478
Kumar, B.; Llorente, M.; Froehlich, J.; Dang, T.; Sathrum, A.; Kubiak, C.P. 2012: Photochemical and photoelectrochemical reduction of CO2. Annual Review of Physical Chemistry 63: 541-569
Vaillard, V.A.; Rossi, R.A.; Argüello, J.E. 2012: Photochemical and photophysical behavior of indolyl anions in photostimulated intramolecular arylation reactions. Organic and Biomolecular Chemistry 10(46): 9255-9261
Marin, M.; Lhiaubet-Vallet, V.; Paris, C.; Yamaji, M.; Miranda, M.A. 2011: Photochemical and photophysical properties of dibenzoylmethane derivatives within protein. Photochemical and Photobiological Sciences: Official Journal of the European Photochemistry Association and the European Society for Photobiology 10(9): 1474-1479
Snow, S.D.; Lee, J.; Kim, J.-H. 2012: Photochemical and photophysical properties of sequentially functionalized fullerenes in the aqueous phase. Environmental Science and Technology 46(24): 13227-13234
Ren, T.; Sun, B.; Chen, Z.; Qu, L.; Yuan, H.; Gao, X.; Wang, S.; He, R.; Zhao, F.; Zhao, Y.; Liu, Z.; Jing, X. 2007: Photochemical and photophysical properties of three carbon-bridged fullerene dimers: C121 (I, II, III). Journal of Physical Chemistry. B 111(23): 6344-6348
Maddigapu, P.R.; Minero, C.; Maurino, V.; Vione, D.; Brigante, M.; Charbouillot, T.; Sarakha, M.; Mailhot, G. 2011: Photochemical and photosensitised reactions involving 1-nitronaphthalene and nitrite in aqueous solution. Photochemical and Photobiological Sciences: Official Journal of the European Photochemistry Association and the European Society for Photobiology 10(4): 601-609
Jantová, S.ňa.; Koňariková, K.ín.; Letašiová, S.; Paulovičová, E.; Milata, V.; Brezová, V. 2011: Photochemical and phototoxic properties of ethyl 1,4-dihydro-8-nitro-4-oxoquinoline-3-carboxylate, a new quinoline derivative. Journal of Photochemistry and Photobiology. B Biology 102(1): 77-91
Polyansky, D.; Cabelli, D.; Muckerman, J.T.; Fujita, E.; Koizumi, T.-a.; Fukushima, T.; Wada, T.; Tanaka, K. 2007: Photochemical and radiolytic production of an organic hydride donor with a Ru(II) complex containing an NAD+ model ligand. Angewandte Chemie 46(22): 4169-4172
Tanaka, S.; Masaoka, S.; Yamauchi, K.; Annaka, M.; Sakai, K. 2010: Photochemical and thermal hydrogen production from water catalyzed by carboxylate-bridged dirhodium(II) complexes. Dalton Transactions 39(46): 11218-11226
Butković, K.; Marinić, Z.; Molčanov, K.ši.; Kojić-Prodić, B.; Sindler-Kulyk, M. 2011: Photochemical and thermal intramolecular 1,3-dipolar cycloaddition reactions of new o-stilbene-methylene-3-sydnones and their synthesis. Beilstein Journal of Organic Chemistry 7: 1663-1670
Pichette, S.; Aubert-Nicol, S.; Lessard, J.; Spino, C. 2012: Photochemical and thermal ring-contraction of cyclic hydroxamic acid derivatives. Journal of Organic Chemistry 77(24): 11216-11226
Whelan, J.; Abdallah, D.; Piskorz, K.; Wojtyk, J.T.C.; Dust, J.M.; Nunzi, J.-M.; Hoz, S.; Buncel, E. 2012: Photochemical and thermal spiropyran (SP)-merocyanine (MC) interconversion: a dichotomy in dependence on viscosity. Physical Chemistry Chemical Physics: Pccp 14(39): 13684-13691
Ranaghan, M.J.; Shima, S.; Ramos, L.; Poulin, D.S.; Whited, G.; Rajasekaran, S.; Stuart, J.A.; Albert, A.D.; Birge, R.R. 2010: Photochemical and thermal stability of green and blue proteorhodopsins: implications for protein-based bioelectronic devices. Journal of Physical Chemistry. B 114(44): 14064-14070
Tarzi, O.I.; Di Stéfano, L.; Argüello, J.E.; Oksdath-Mansilla, G.; Erra-Balsells, R. 2013: Photochemical and thermal stability of some dihydroxyacetophenones used as UV-MALDI-MS matrices. Photochemistry and Photobiology 89(6): 1368-1374
Fanjul-Vélez, F.; Salas-García, I.; Ortega-Quijano, N.é; Arce-Diego, J.é L. 2009: Photochemical approach of photodynamic therapy applied to skin. Annual International Conference of the IEEE Engineering in Medicine and Biology Society. IEEE Engineering in Medicine and Biology Society. Annual International Conference 2009: 278-281
Sagud, I.; Božić, S.; Marinić, Z.; Sindler-Kulyk, M. 2014: Photochemical approach to functionalized benzobicyclo[3.2.1]octene structures via fused oxazoline derivatives from 4- and 5-(o-vinylstyryl)oxazoles. Beilstein Journal of Organic Chemistry 10: 2222-2229
Šagud, I.; Faraguna, F.; Marinić, Že.; Šindler-Kulyk, M. 2011: Photochemical approach to naphthoxazoles and fused heterobenzoxazoles from 5-(phenyl/heteroarylethenyl)oxazoles. Journal of Organic Chemistry 76(8): 2904-2908
Lollmahomed, F.Begum.; Narain, R. 2011: Photochemical approach toward deposition of gold nanoparticles on functionalized carbon nanotubes. Langmuir 27(20): 12642-12649
Sitterle, V.B.; Nishimuta, J.F.; Levenston, M.E. 2009: Photochemical approaches for bonding of cartilage tissues. Osteoarthritis and Cartilage 17(12): 1649-1656
Huse, M. 2010: Photochemical approaches to T-cell activation. Immunology 130(2): 151-157
Gurry, M.; Allart-Simon, I.; McArdle, P.; Gérard, S.ép.; Sapi, J.; Aldabbagh, F. 2014: Photochemical aryl radical cyclizations to give (E)-3-ylideneoxindoles. Molecules 19(10): 15891-15899
Escudero, D.; Weisheit, T.; Weigand, W.; González, L. 2010: Photochemical behavior of (bisphosphane)(η(2)-tolane)Pt(0) complexes. Part B: An insight from DFT calculations. Dalton Transactions 39(40): 9505-9513
Weisheit, T.; Escudero, D.; Petzold, H.; Görls, H.; González, L.; Weigand, W. 2010: Photochemical behavior of (diphosphine)(η(2)-tolane)Pt(0) complexes. Part A: Experimental considerations in solution and in the solid state. Dalton Transactions 39(40): 9493-9504
Creary, X.; Hinckley, J.; Kraft, C.; Genereux, M. 2011: Photochemical behavior of cyclopropyl-substituted benzophenones and valerophenones. Journal of Organic Chemistry 76(7): 2062-2071
Liu, P.Y.; Li, B.; Liu, H.D.; Tian, L. 2014: Photochemical behavior of fenpropathrin and λ-cyhalothrin in solution. Environmental Science and Pollution Research International 21(3): 1993-2001
Meng, L.; Fu, C.; Fei, Z.; Lu, Q.; Dyson, P.J. 2010: Photochemical behavior of high quantum yield SWNTs functionalized with anthracene salts. Chemistry An Asian Journal 5(9): 1988-1991
Yue, Q.; Song, Z.; Dong, F.; Liu, Y.; Shao, X. 2007: Photochemical behavior of lysozyme-4-(2-pyridylazo)-resorcinol polymolecular complex and its analytical applications. Journal of Fluorescence 17(5): 505-511
Therias, S.; Larché, J.-F.ço.; Bussière, P.-O.; Gardette, J.-L.; Murariu, M.; Dubois, P. 2012: Photochemical behavior of polylactide/ZnO nanocomposite films. Biomacromolecules 13(10): 3283-3291
Hammami, H.; Rashed Mohassel, M.H.; Parsa, M.; Bannayan-Aval, M.; Zand, E.; Hassanzadeh-Khayyat, M.; Nassirli, H. 2014: Photochemical behavior of sethoxydim in the presence of vegetable oils. Journal of Agricultural and Food Chemistry 62(27): 6263-6268
Maeda, Y.; Hasuike, Y.; Ohkubo, K.; Tashiro, A.; Kaneko, S.; Kikuta, M.; Yamada, M.; Hasegawa, T.; Akasaka, T.; Zhou, J.; Lu, J.; Nagase, S.; Fukuzumi, S. 2014: Photochemical behavior of single-walled carbon nanotubes in the presence of propylamine. Chemphyschem: a European Journal of Chemical Physics and Physical Chemistry 15(9): 1821-1826
Sionkowska, A.; Skopinska-Wiśniewska, J.; Kozłowska, J.; Płanecka, A.; Kurzawa, M. 2011: Photochemical behaviour of hydrolysed keratin. International Journal of Cosmetic Science 33(6): 503-508
Kunin, A.J.; Eisenberg, R. 1986: Photochemical carbonylation of benzene by iridium(I) and rhodium(I) square-planar complexes. Journal of the American Chemical Society 108(3): 535-536
Fan, Y.; Solomon, P.; Oliver, R.P.; Brown, L.S. 2011: Photochemical characterization of a novel fungal rhodopsin from Phaeosphaeria nodorum. Biochimica et Biophysica Acta 1807(11): 1457-1466
Shin, A.-Y.; Kim, H.-S.; Lee, S.-S.; Kim, M.-G.; Han, Y.-J.; Song, P.-S.; Kim, J.-I. 2011: Photochemical characterization of phytochrome missense mutants. Bioscience Biotechnology and Biochemistry 75(12): 2411-2414
Wijesinghe, C.A.; El-Khouly, M.E.; Subbaiyan, N.K.; Supur, M.; Zandler, M.E.; Ohkubo, K.; Fukuzumi, S.; D'Souza, F. 2011: Photochemical charge separation in closely positioned donor-boron dipyrrin-fullerene triads. Chemistry 17(11): 3147-3156
D'Souza, F.; Maligaspe, E.; Sandanayaka, A.S.D.; Subbaiyan, N.K.; Karr, P.A.; Hasobe, T.; Ito, O. 2010: Photochemical charge separation in supramolecular phthalocyanine-multifullerene conjugates assembled by crown ether-alkyl ammonium cation interactions. Journal of Physical Chemistry. a 114(41): 10951-10959
Li, B.; Zhou, L.; Wu, D.; Peng, H.; Yan, K.; Zhou, Y.; Liu, Z. 2011: Photochemical chlorination of graphene. Acs Nano 5(7): 5957-5961
Engel, E.; Spannberger, A.; Vasold, R.; König, B.; Landthaler, M.; Bäumler, W. 2007: Photochemical cleavage of a tattoo pigment by UVB radiation or natural sunlight. Journal der Deutschen Dermatologischen Gesellschaft 5(7): 583-589
Bindman, N.; Merkx, R.; Koehler, R.; Herrman, N.; van der Donk, W.A. 2010: Photochemical cleavage of leader peptides. Chemical Communications 46(47): 8935-8937
Ariyasu, S.; Hanaya, K.; Tsunoda, M.; Kitamura, M.; Hayase, M.; Abe, R.; Aoki, S. 2011: Photochemical cleavage reaction of 8-quinolinyl sulfonates that are halogenated and nitrated at the 7-position. Chemical and Pharmaceutical Bulletin 59(11): 1355-1362
Kageyama, Y.; Ohshima, R.; Sakurama, K.; Fujiwara, Y.; Tanimoto, Y.; Yamada, Y.; Aoki, S. 2009: Photochemical cleavage reactions of 8-quinolinyl sulfonates in aqueous solution. Chemical and Pharmaceutical Bulletin 57(11): 1257-1266
Tomohiro, T.; Kato, K.; Masuda, S.; Kishi, H.; Hatanaka, Y. 2011: Photochemical construction of coumarin fluorophore on affinity-anchored protein. Bioconjugate Chemistry 22(3): 315-318
Govan, J.M.; Lively, M.O.; Deiters, A. 2011: Photochemical control of DNA decoy function enables precise regulation of nuclear factor κB activity. Journal of the American Chemical Society 133(33): 13176-13182
San Pedro, J.M.N.; Greenberg, M.M. 2013: Photochemical control of DNA structure through radical disproportionation. Chembiochem: a European Journal of Chemical Biology 14(13): 1590-1596
Wilkins, B.J.; Yang, X.; Cropp, T.A. 2009: Photochemical control of FlAsH labeling of proteins. Bioorganic and Medicinal Chemistry Letters 19(15): 4296-4298
Resendiz, M.J.E.; Schön, A.; Freire, E.; Greenberg, M.M. 2012: Photochemical control of RNA structure by disrupting π-stacking. Journal of the American Chemical Society 134(30): 12478-12481
Morimoto, M.; Murata, K.; Michinobu, T. 2011: Photochemical control of a highly efficient addition reaction between electron-rich alkynes and tetracyanoethylene. Chemical Communications 47(35): 9819-9821
Gardner, L.; Zou, Y.; Mara, A.; Cropp, T.A.; Deiters, A. 2011: Photochemical control of bacterial signal processing using a light-activated erythromycin. Molecular Biosystems 7(9): 2554-2557
Young, D.D.; Deiters, A. 2007: Photochemical control of biological processes. Organic and Biomolecular Chemistry 5(7): 999-1005
Morimoto, M.; Irie, M. 2011: Photochemical control of dielectric properties based on intermolecular proton transfer in a hydrogen-bonded diarylethene crystal. Chemical Communications 47(14): 4186-4188
Matsumura, A.; Tsuchiya, K.; Torigoe, K.; Sakai, K.; Sakai, H.; Abe, M. 2011: Photochemical control of molecular assembly formation in a catanionic surfactant system. Langmuir 27(5): 1610-1617
Hough, A.J.; Prokes, I.; Tucker, J.H.R.; Shipman, M.; Walsh, T.R. 2013: Photochemical control of molecular motion associated with pyramidal inversion. Chemical Communications 49(59): 6683-6685
Dube, H.; Ajami, D.; Rebek, J. 2010: Photochemical control of reversible encapsulation. Angewandte Chemie 49(18): 3192-3195
Balzani, V.; Credi, A.; Venturi, M. 2008: Photochemical conversion of solar energy. Chemsuschem 1(1-2): 26-58
Kohri, M.; Kimura, T.; Shinoda, Y.; Taniguchi, T.; Nakahira, T. 2011: Photochemical conversion of the o-nitrobenzyl-C-glucoside to a sugar lactone. Carbohydrate Research 346(18): 2965-2969
Viruvuru, V.; Fragata, M. 2008: Photochemical cooperativity in photosystem II. Characterization of oxygen evolution discontinuities in the light-response curves. Physical Chemistry Chemical Physics: Pccp 10(44): 6607-6614
Wang, Z.; Ma, W.; Chen, C.; Zhao, J. 2008: Photochemical coupling reactions between Fe(III)/Fe(II), Cr(VI)/Cr(III), and polycarboxylates: inhibitory effect of Cr species. Environmental Science and Technology 42(19): 7260-7266
Ter Maat, J.; Regeling, R.; Yang, M.; Mullings, M.N.; Bent, S.F.; Zuilhof, H. 2009: Photochemical covalent attachment of alkene-derived monolayers onto hydroxyl-terminated silica. Langmuir 25(19): 11592-11597
Cho, S.-Y.; Kim, J.-G.; Chung, C.-M. 2010: Photochemical crack healing in cinnamate-based polymers. Journal of Nanoscience and Nanotechnology 10(10): 6972-6976
Mi, S.; Khutoryanskiy, V.V.; Jones, R.R.; Zhu, X.; Hamley, I.W.; Connon, C.J. 2011: Photochemical cross-linking of plastically compressed collagen gel produces an optimal scaffold for corneal tissue engineering. Journal of Biomedical Materials Research. Part a 99(1): 1-8
Liu, T.; Teng, W.K.; Chan, B.P.; Chew, S.Y. 2010: Photochemical crosslinked electrospun collagen nanofibers: synthesis, characterization and neural stem cell interactions. Journal of Biomedical Materials Research. Part a 95(1): 276-282
Sando, L.; Kim, M.; Colgrave, M.L.; Ramshaw, J.A.M.; Werkmeister, J.A.; Elvin, C.M. 2010: Photochemical crosslinking of soluble wool keratins produces a mechanically stable biomaterial that supports cell adhesion and proliferation. Journal of Biomedical Materials Research. Part a 95(3): 901-911
Wang, Z.; Chen, X.; Ji, H.; Ma, W.; Chen, C.; Zhao, J. 2010: Photochemical cycling of iron mediated by dicarboxylates: special effect of malonate. Environmental Science and Technology 44(1): 263-268
Sato, H.; Matsuda, R.; Mir, M.H.; Kitagawa, S. 2012: Photochemical cycloaddition on the pore surface of a porous coordination polymer impacts the sorption behavior. Chemical Communications 48(64): 7919-7921
Al-Saraierh, H.; Miller, D.O.; Georghiou, P.E. 2007: Photochemical cycloisomerizations via 7-exo-dig reactions on a calix[4]arene scaffold. Journal of Organic Chemistry 72(12): 4532-4535
Ye, P.; Yang, C.-h.; Zhang, L.; Huang, Y.; Liu, J.; Wang, J.-x. 2011: Photochemical damages to suspended hepatoma carcinoma cells by a new photosensitizer (YWW007). Sichuan da Xue Xue Bao. Yi Xue Ban 42(1): 69-73; 94
Hostettler, J.M.; Castiglioni, L.; Bach, A.; Chen, P. 2009: Photochemical deactivation pathways of the A-state allyl radical. Physical Chemistry Chemical Physics: Pccp 11(37): 8262-8265
Pereira Rodrigues, G.; Ventura, E.; do Monte, S.A.; Barbatti, M. 2014: Photochemical deactivation process of HCFC-133a (C2H2F3Cl): a nonadiabatic dynamics study. Journal of Physical Chemistry. a 118(51): 12041-12049
Rajappan, M.; Büttner, M.; Cox, C.; Yates, J.T. 2010: Photochemical decomposition of N2O by Lyman-alpha radiation: scientific basis for a chemical actinometer. Journal of Physical Chemistry. a 114(10): 3443-3448
Van den Besselaar, A.M.H.P. 2010: Photochemical decomposition of dipyridamole in aqueous solution and the utilization of citrate-theophylline-adenosine-dipyridamole anticoagulant for monitoring of heparin. International Journal of Laboratory Hematology 32(2): 265-267
Bastos, P.M.; Eriksson, J.; Bergman, A. 2009: Photochemical decomposition of dissolved hydroxylated polybrominated diphenyl ethers under various aqueous conditions. Chemosphere 77(6): 791-797
Wang, B.B.; Cao, M.H.; Tan, Z.J.; Wang, L.L.; Yuan, S.H.; Chen, J. 2010: Photochemical decomposition of perfluorodecanoic acid in aqueous solution with VUV light irradiation. Journal of Hazardous Materials 181(1-3): 187-192
Cao, M.H.; Wang, B.B.; Yu, H.S.; Wang, L.L.; Yuan, S.H.; Chen, J. 2010: Photochemical decomposition of perfluorooctanoic acid in aqueous periodate with VUV and UV light irradiation. Journal of Hazardous Materials 179(1-3): 1143-1146
Ohno, M.; Ito, M.; Ohkura, R.; Mino A, E.R.; Kose, T.; Okuda, T.; Nakai, S.; Kawata, K.; Nishijima, W. 2014: Photochemical decomposition of perfluorooctanoic acid mediated by iron in strongly acidic conditions. Journal of Hazardous Materials 268: 150-155
Alula, M.T.; Yang, J. 2014: Photochemical decoration of magnetic composites with silver nanostructures for determination of creatinine in urine by surface-enhanced Raman spectroscopy. Talanta 130: 55-62
Alula, M.Tadele.; Yang, J. 2014: Photochemical decoration of silver nanoparticles on magnetic microspheres as substrates for the detection of adenine by surface-enhanced Raman scattering. Analytica Chimica Acta 812: 114-120
Mukhopadhyay, M.; Daswat, D.P. 2013: Photochemical degradation of 4-chlorophenol in the aqueous phase using peroxyacetic acid (PAA). Water Science and Technology: a Journal of the International Association on Water Pollution Research 67(2): 440-445
Glover, C.M.; Mezyk, S.P.; Linden, K.G.; Rosario-Ortiz, F.L. 2014: Photochemical degradation of Corexit components in ocean water. Chemosphere 111: 596-602
Matykiewiczová, N.; Klánová, J.; Klán, P. 2007: Photochemical degradation of PCBs in snow. Environmental Science and Technology 41(24): 8308-8314
Dong, M.M.; Trenholm, R.; Rosario-Ortiz, F.L. 2015: Photochemical degradation of atenolol, carbamazepine, meprobamate, phenytoin and primidone in wastewater effluents. Journal of Hazardous Materials 282: 216-223
Choi, H-Jin.; Kim, D.; Lee, T-Jin. 2013: Photochemical degradation of atrazine in UV and UV/H2O2 process: pathways and toxic effects of products. Journal of Environmental Science and Health. Part. B Pesticides Food Contaminants and Agricultural Wastes 48(11): 927-934
Guo, H.-G.; Gao, N.-Y.; Chu, W.-H.; Li, L.; Zhang, Y.-J.; Gu, J.-S.; Gu, Y.-L. 2013: Photochemical degradation of ciprofloxacin in UV and UV/H₂O₂ process: kinetics, parameters, and products. Environmental Science and Pollution Research International 20(5): 3202-3213
Valliere-Douglass, J.F.; Connell-Crowley, L.; Jensen, R.; Schnier, P.D.; Trilisky, E.; Leith, M.; Follstad, B.D.; Kerr, J.; Lewis, N.; Vunnum, S.; Treuheit, M.J.; Balland, A.; Wallace, A. 2010: Photochemical degradation of citrate buffers leads to covalent acetonation of recombinant protein therapeutics. Protein Science: a Publication of the Protein Society 19(11): 2152-2163
D'Auria, M.; Emanuele, L.; Racioppi, R.; Velluzzi, V. 2009: Photochemical degradation of crude oil: Comparison between direct irradiation, photocatalysis, and photocatalysis on zeolite. Journal of Hazardous Materials 164(1): 32-38
Wang, H.-R.; Song, Y.-W.; Xu, Z.-H.; Cui, C.-H.; Zhou, L.-X. 2014: Photochemical degradation of landfill leachate facilitated by combined schwertmannite and H2O2. Huan Jing Ke Xue= Huanjing Kexue 35(4): 1407-1413
Sturini, M.; Speltini, A.; Maraschi, F.; Profumo, A.; Pretali, L.; Fasani, E.; Albini, A. 2010: Photochemical degradation of marbofloxacin and enrofloxacin in natural waters. Environmental Science and Technology 44(12): 4564-4569
Herzsprung, P.; Hertkorn, N.; Friese, K.; Schmitt-Kopplin, P. 2010: Photochemical degradation of natural organic sulfur compounds (CHOS) from iron-rich mine pit lake pore waters--an initial understanding from evaluation of single-elemental formulae using ultra-high-resolution mass spectrometry. Rapid Communications in Mass Spectrometry: Rcm 24(19): 2909-2924
Dulov, A.; Dulova, N.; Trapido, M. 2013: Photochemical degradation of nonylphenol in aqueous solution: the impact of pH and hydroxyl radical promoters. Journal of Environmental Sciences 25(7): 1326-1330
Shao, M.; Yang, G.-P.; Zhang, H.-H. 2012: Photochemical degradation of ofloxacin in aqueous solution. Huan Jing Ke Xue= Huanjing Kexue 33(2): 476-480
De Bruyn, W.J.; Clark, C.D.; Ottelle, K.; Aiona, P. 2012: Photochemical degradation of phenanthrene as a function of natural water variables modeling freshwater to marine environments. Marine Pollution Bulletin 64(3): 532-538
Peat, S.; Bourne, E.J.; Whelan, W.J. 1948: Photochemical degradation of starch. Nature 161(4098): 762
Ji, Y.; Zhou, L.; Zhang, Y.; Ferronato, C.; Brigante, M.; Mailhot, G.; Yang, X.; Chovelon, J.-M. 2013: Photochemical degradation of sunscreen agent 2-phenylbenzimidazole-5-sulfonic acid in different water matrices. Water Research 47(15): 5865-5875
Da Silva, E.S.; Wong-Wah-Chung, P.; Burrows, H.D.; Sarakha, M. 2013: Photochemical degradation of the plant growth regulator 2-(1-naphthyl) acetamide in aqueous solution upon UV irradiation. Photochemistry and Photobiology 89(3): 560-570
Klementova, S.; Zlamal, M. 2013: Photochemical degradation of triazine herbicides - comparison of homogeneous and heterogeneous photocatalysis. Photochemical and Photobiological Sciences: Official Journal of the European Photochemistry Association and the European Society for Photobiology 12(4): 660-663
Wei, S.; Pintus, V.; Schreiner, M. 2012: Photochemical degradation study of polyvinyl acetate paints used in artworks by Py-GC/MS. Journal of Analytical and Applied Pyrolysis 97(5): 158-163
Sadhu, P.S.; Ravinder, M.; Kumar, P.A.; Rao, V.J. 2009: Photochemical dehydrogenation of 3,4-dihydro-2-pyridones. Photochemical and Photobiological Sciences: Official Journal of the European Photochemistry Association and the European Society for Photobiology 8(4): 513-515
Ford, P.C. 2013: Photochemical delivery of nitric oxide. Nitric Oxide: Biology and Chemistry 34: 56-64
Steinmiller, E.M.P.; Choi, K.-S. 2009: Photochemical deposition of cobalt-based oxygen evolving catalyst on a semiconductor photoanode for solar oxygen production. Proceedings of the National Academy of Sciences of the United States of America 106(49): 20633-20636
Franco, C.; Olmsted, J. 1990: Photochemical determination of the solubility of oxygen in various media. Talanta 37(9): 905-909
Basarić, N.; Franco-Cea, A.; Alesković, M.; Mlinarić-Majerski, K.; Wan, P. 2010: Photochemical deuterium exchange in phenyl-substituted pyrroles and indoles in CD3CN-D2O. Photochemical and Photobiological Sciences: Official Journal of the European Photochemistry Association and the European Society for Photobiology 9(6): 779-790
Summers, P.A.; Dawson, J.; Ghiotto, F.; Hanson-Heine, M.W.D.; Vuong, K.Q.; Davies, E.S.; Sun, X.-Z.; Besley, N.A.; McMaster, J.; George, M.W.; Schröder, M. 2014: Photochemical dihydrogen production using an analogue of the active site of [NiFe] hydrogenase. Inorganic Chemistry 53(9): 4430-4439
Schwarzer, A.; Weber, E. 2014: Photochemical dimerization of a fluorinated dibenzylideneacetone in chloroform solution. Acta Crystallographica. Section C Structural Chemistry 70(Part 2): 202-206
Pedras, M.S.C.; Zheng, Q.-A.; Schatte, G.; Adio, A.M. 2009: Photochemical dimerization of wasalexins in UV-irradiated Thellungiellahalophila and in vitro generates unique cruciferous phytoalexins. Phytochemistry 70(17-18): 2010-2016
Koylu, D.; Thapa, M.; Gumbley, P.; Thomas, S.W. 2012: Photochemical disruption of polyelectrolyte multilayers. Advanced Materials 24(11): 1451-1454
Fukazawa, A.; Karasawa, T.; Zhang, H.; Minemura, K.; Camacho, C.; Wang, J.; Irle, S.; Yamaguchi, S. 2013: Photochemical double 5-exo cyclization of alkenyl-substituted dithienylacetylenes: efficient synthesis of diarylated dithienofulvalenes. Angewandte Chemie 52(40): 10519-10523
Schönborn, J.B.; Koslowski, A.; Thiel, W.; Hartke, B. 2012: Photochemical dynamics of E-iPr-furylfulgide. Physical Chemistry Chemical Physics: Pccp 14(35): 12193-12201
Schönborn, J.B.; Hartke, B. 2014: Photochemical dynamics of E-methylfurylfulgide-kinematic effects on photorelaxation dynamics of furylfulgides. Physical Chemistry Chemical Physics: Pccp 16(6): 2483-2490
Murakami, T.; Nakazono, M.; Kondorskiy, A.; Ishida, T.; Nanbu, S. 2012: Photochemical dynamics of indolylmaleimide derivatives. Physical Chemistry Chemical Physics: Pccp 14(32): 11546-11555
Nefedov, A.P.; Sinel'shchikov, V.A.; Usachev, A.D.; Zobnin, A.V. 1998: Photochemical effect in two-photon laser-induced fluorescence detection of carbon monoxide in hydrocarbon flames. Applied Optics 37(33): 7729-7736
Yu, C.; Zhang, Y.; Quan, X.; Chen, S.; Han, J.; Ou, X.; Zhao, J. 2010: Photochemical effect of humic acid components separated using molecular imprinting method applying porphyrin-like substances as templates in aqueous solution. Environmental Science and Technology 44(15): 5812-5817
Goldsmith, J.E. 1986: Photochemical effects in 205-nm, two-photon-excited fluorescence detection of atomic hydrogen in flames. Optics Letters 11(7): 416-418
Goldsmith, J.E. 1989: Photochemical effects in 243-nm two-photon excitation of atomic hydrogen in flames. Applied Optics 28(6): 1206-1213
Goldsmith, J.E.; Aldén, M.; Westblom, U. 1990: Photochemical effects in multiple species fluorescence imaging in hydrogen-nitrous oxide flames. Applied Optics 29(33): 4852-4859
Goldsmith, J.E. 1987: Photochemical effects in two-photon-excited fluorescence detection of atomic oxygen in flames. Applied Optics 26(17): 3566-3572
Demmig-Adams, B.; Adams, W.W.; Winter, K.; Meyer, A.; Schreiber, U.; Pereira, J.S.; Krüger, A.; Czygan, F.C.; Lange, O.L. 1989: Photochemical efficiency of photosystem II, photon yield of O2 evolution, photosynthetic capacity, and carotenoid composition during the midday depression of net CO2 uptake in Arbutus unedo growing in Portugal. Planta 177(3): 377-387
Sarker, M.I.; Shahrin, T.; Steinmetz, M.G.; Timerghazin, Q.K. 2013: Photochemical electrocyclic ring closure and leaving group expulsion from N-(9-oxothioxanthenyl)benzothiophene carboxamides. Photochemical and Photobiological Sciences: Official Journal of the European Photochemistry Association and the European Society for Photobiology 12(2): 309-322
Lemster, T.; Pindur, U.; Lenglet, G.; Depauw, S.; Dassi, C.; David-Cordonnier, M.-H.él.èn. 2009: Photochemical electrocyclisation of 3-vinylindoles to pyrido[2,3-a]-, pyrido[4,3-a]- and thieno[2,3-a]-carbazoles: design, synthesis, DNA binding and antitumor cell cytotoxicity. European Journal of Medicinal Chemistry 44(8): 3235-3252
Jahjah, R.; Gassama, A.; Dumur, F.éd.ér.; Marinković, S.ša.; Richert, S.; Landgraf, S.; Lebrun, A.él.; Cadiou, C.; Sellès, P.; Hoffmann, N. 2011: Photochemical electron transfer mediated addition of naphthylamine derivatives to electron-deficient alkenes. Journal of Organic Chemistry 76(17): 7104-7118
Rinehart, J.D.; Schimpf, A.M.; Weaver, A.L.; Cohn, A.W.; Gamelin, D.R. 2013: Photochemical electronic doping of colloidal CdSe nanocrystals. Journal of the American Chemical Society 135(50): 18782-18785
Jia, J.; Sarker, M.; Steinmetz, M.G.; Shukla, R.; Rathore, R. 2008: Photochemical elimination of leaving groups from zwitterionic intermediates generated via electrocyclic ring closure of alpha,beta-unsaturated anilides. Journal of Organic Chemistry 73(22): 8867-8879
Sarker, M.; Shahrin, T.; Steinmetz, M.G. 2011: Photochemical eliminations involving zwitterionic intermediates generated via electrocyclic ring closure of benzothiophene carboxanilides. Organic Letters 13(5): 872-875
Bonsted, A.; Wagner, E.; Prasmickaite, L.; Høgset, A.; Berg, K. 2008: Photochemical enhancement of DNA delivery by EGF receptor targeted polyplexes. Methods in Molecular Biology 434: 171-181
Vizuete, Mía.; Gómez-Escalonilla, Mía.J.; García-Rodriguez, S.; Fierro, Jé.Luis.G.; Atienzar, P.; García, H.; Langa, F. 2012: Photochemical evidence of electronic interwall communication in double-wall carbon nanotubes. Chemistry 18(52): 16922-16930
Behar, B.; Stein, G. 1966: Photochemical evolution of oxygen from certain aqueous solutions. Science 154(3752): 1012-1013
Liu, Y.; He, L.; Xu, C.; Han, M. 2009: Photochemical fabrication of hierarchical Ag nanoparticle arrays from domain-selective Ag(+)-loading on block copolymer templates. Chemical Communications 2009(43): 6566-6568
Sakamoto, M.; Kim, S.S.; Furusho, H.; Majima, T. 2010: Photochemical fabrication of silver nanostructures at the solid-liquid interface using a recyclable photosensitized reduction process. Physical Chemistry Chemical Physics: Pccp 12(2): 365-372
Carlos, L.; Mártire, D.O.; Gonzalez, M.ón.C.; Gomis, J.; Bernabeu, A.; Amat, A.M.; Arques, A. 2012: Photochemical fate of a mixture of emerging pollutants in the presence of humic substances. Water Research 46(15): 4732-4740
Razavi, B.; Ben Abdelmelek, S.; Song, W.; O'Shea, K.E.; Cooper, W.J. 2011: Photochemical fate of atorvastatin (lipitor) in simulated natural waters. Water Research 45(2): 625-631
Wang, L.; Xu, H.; Cooper, W.J.; Song, W. 2012: Photochemical fate of beta-blockers in NOM enriched waters. Science of the Total Environment 426: 289-295
De Laurentiis, E.; Chiron, S.; Kouras-Hadef, S.; Richard, C.; Minella, M.; Maurino, V.; Minero, C.; Vione, D. 2012: Photochemical fate of carbamazepine in surface freshwaters: laboratory measures and modeling. Environmental Science and Technology 46(15): 8164-8173
Kover, S.C.; Rosario-Ortiz, F.L.; Linden, K.G. 2014: Photochemical fate of solvent constituents of Corexit oil dispersants. Water Research 52: 101-111
Guerard, J.J.; Chin, Y.-P.; Mash, H.; Hadad, C.M. 2009: Photochemical fate of sulfadimethoxine in aquaculture waters. Environmental Science and Technology 43(22): 8587-8592
Tschierlei, S.; Karnahl, M.; Presselt, M.; Dietzek, B.; Guthmuller, J.; González, L.; Schmitt, M.; Rau, S.; Popp, J.ür. 2010: Photochemical fate: the first step determines efficiency of H2 formation with a supramolecular photocatalyst. Angewandte Chemie 49(23): 3981-3984
Weinhold, B. 2011: Photochemical finish assessing the genomic impact of secondary air pollutants. Environmental Health Perspectives 119(11): A488
Hoffmann, F.; Wolff, T. 2008: Photochemical fixation of structures in binary polymer brushes-influence of layer thickness and grafting method. Journal of Colloid and Interface Science 322(2): 434-447
Tieli, Z.; Huichun, Z.; Linpei, J. 1999: Photochemical fluorescence enhancement of the terbium-lomefloxacin complex and its application. Talanta 49(1): 77-82
Basarić, N.; Zabcić, I.; Mlinarić-Majerski, K.; Wan, P. 2010: Photochemical formation and chemistry of long-lived adamantylidene-quinone methides and 2-adamantyl cations. Journal of Organic Chemistry 75(1): 102-116
Heazlewood, B.R.; Rowling, S.J.; Maccarone, A.T.; Jordan, M.J.T.; Kable, S.H. 2009: Photochemical formation of HCO and CH3 on the ground S0 (1A') state of CH3CHO. Journal of Chemical Physics 130(5): 054310
Erickson, P.R.; Grandbois, M.; Arnold, W.A.; McNeill, K. 2012: Photochemical formation of brominated dioxins and other products of concern from hydroxylated polybrominated diphenyl ethers (OH-PBDEs). Environmental Science and Technology 46(15): 8174-8180
Kundu, S.; Huitink, D.; Wang, K.; Liang, H. 2010: Photochemical formation of electrically conductive silver nanowires on polymer scaffolds. Journal of Colloid and Interface Science 344(2): 334-342
Steen, P.O.; Grandbois, M.; McNeill, K.; Arnold, W.A. 2009: Photochemical formation of halogenated dioxins from hydroxylated polybrominated diphenyl ethers (OH-PBDEs) and chlorinated derivatives (OH-PBCDEs). Environmental Science and Technology 43(12): 4405-4411
Cooper, W.J.; Zika, R.G. 1983: Photochemical formation of hydrogen peroxide in surface and ground waters exposed to sunlight. Science 220(4598): 711-712
Dong, M.M.; Rosario-Ortiz, F.L. 2012: Photochemical formation of hydroxyl radical from effluent organic matter. Environmental Science and Technology 46(7): 3788-3794
Lee, E.; Glover, C.M.; Rosario-Ortiz, F.L. 2013: Photochemical formation of hydroxyl radical from effluent organic matter: role of composition. Environmental Science and Technology 47(21): 12073-12080
Higuchi, T.; Fujimura, H.; Hitomi, Y.; Arakaki, T.; Oomori, T.; Suzuki, Y. 2010: Photochemical formation of hydroxyl radicals in tissue extracts of the coral Galaxea fascicularis. Photochemistry and Photobiology 86(6): 1421-1426
Kang, N.; Anderson, T.A.; Jackson, W.A. 2006: Photochemical formation of perchlorate from aqueous oxychlorine anions. Analytica Chimica Acta 567(1): 48-56
Arnoldsson, K.; Andersson, P.L.; Haglund, P. 2012: Photochemical formation of polybrominated dibenzo-p-dioxins from environmentally abundant hydroxylated polybrominated diphenyl ethers. Environmental Science and Technology 46(14): 7567-7574
Zheng, X.; Zhao, X.; Guo, D.; Tang, B.; Xu, S.; Zhao, B.; Xu, W.; Lombardi, J.R. 2009: Photochemical formation of silver nanodecahedra: structural selection by the excitation wavelength. Langmuir 25(6): 3802-3807
Zhao, Y.; Mondal, R.; Neckers, D.C. 2008: Photochemical formation of substituted pentacenes. Journal of Organic Chemistry 73(14): 5506-5513
Burdzinski, G.; Sliwa, M.; Zhang, Y.; Delbaere, S.ép.; Pedzinski, T.; Réhault, J. 2013: Photochemical formation of thiirene and thioketene in 1,2,3-thiadiazoles with phenyl substituents studied by time-resolved spectroscopy. Photochemical and Photobiological Sciences: Official Journal of the European Photochemistry Association and the European Society for Photobiology 12(5): 895-901
Mecomber, J.S.; Murthy, R.S.; Rajam, S.; Singh, P.N.D.; Gudmundsdottir, A.D.; Limbach, P.A. 2008: Photochemical functionalization of polymer surfaces for microfabricated devices. Langmuir 24(7): 3645-3653
Ni, J.; Auston, D.A.; Freilich, D.A.; Muralidharan, S.; Sobie, E.A.; Kao, J.P.Y. 2007: Photochemical gating of intracellular Ca2+ release channels. Journal of the American Chemical Society 129(17): 5316-5317
Zhang, R.; Vanover, E.; Luo, W.; Newcomb, M. 2014: Photochemical generation and kinetic studies of a putative porphyrin-ruthenium(V)-oxo species. Dalton Transactions 43(23): 8749-8756
Tomi, E.; Aso, M.; Inoue, S.; Toguchi, Y.; Usui, K.; Azam, M.H.; Jinnouchi, A.; Suemune, H. 2009: Photochemical generation and reaction of 2'-substituted analogues of C4'-oxidized abasic lesion. Nucleic Acids Symposium Series 53: 185-186
Gupta, S.; Choudhury, R.; Krois, D.; Wagner, G.; Brinker, U.H.; Ramamurthy, V. 2011: Photochemical generation and reactivity of carbenes within an organic cavitand and capsule: photochemistry of adamantanediazirines. Organic Letters 13(22): 6074-6077
Newman, C.A.; Resendiz, M.J.E.; Sczepanski, J.T.; Greenberg, M.M. 2009: Photochemical generation and reactivity of the 5,6-dihydrouridin-6-yl radical. Journal of Organic Chemistry 74(18): 7007-7012
San Pedro, J.M.N.; Greenberg, M.M. 2012: Photochemical generation and reactivity of the major hydroxyl radical adduct of thymidine. Organic Letters 14(11): 2866-2869
Pandithavidana, D.R.; Poloukhtine, A.; Popik, V.V. 2009: Photochemical generation and reversible cycloaromatization of a nine-membered ring cyclic enediyne. Journal of the American Chemical Society 131(1): 351-356
Arumugam, S.; Popik, V.V. 2009: Photochemical generation and the reactivity of o-naphthoquinone methides in aqueous solutions. Journal of the American Chemical Society 131(33): 11892-11899
Dyblenko, T.; Chtchemelinine, A.; Reiter, R.; Chowdhury, R.Q.; Enaya, A.; Afifi, H.; Fournier, R.; Mladenova, G.; Lever, A.B.P.; Lee-Ruff, E. 2014: Photochemical generation of 9H-fluorenyl radicals. Photochemistry and Photobiology 90(2): 470-475
Yang, I.; Kim, E.; Kang, J.; Han, H.; Sul, S.; Park, S.B.; Kim, S.K. 2012: Photochemical generation of a new, highly fluorescent compound from non-fluorescent resveratrol. Chemical Communications 48(32): 3839-3841
Squillacote, M.E.; Garner, C.; Oliver, L.; Mooney, M.; Lai, Y.-L. 2007: Photochemical generation of aziridinium imides: are Als bystanders or perpetrators in the ene reaction?. Organic Letters 9(26): 5405-5408
Bunte, C.; Rühe, J.ür. 2009: Photochemical generation of ferrocene-based redox-polymer networks. Macromolecular Rapid Communications 30(21): 1817-1822
Usui, K.; Aso, M.; Fukuda, M.; Suemune, H. 2008: Photochemical generation of oligodeoxynucleotide containing a C4'-oxidized abasic site and its efficient amine modification: dependence on structure and microenvironment. Journal of Organic Chemistry 73(1): 241-248
McNitt, C.D.; Popik, V.V. 2012: Photochemical generation of oxa-dibenzocyclooctyne (ODIBO) for metal-free click ligations. Organic and Biomolecular Chemistry 10(41): 8200-8202
Bianco, A.; Minella, M.; De Laurentiis, E.; Maurino, V.; Minero, C.; Vione, D. 2014: Photochemical generation of photoactive compounds with fulvic-like and humic-like fluorescence in aqueous solution. Chemosphere 111: 529-536
Albinet, A.; Minero, C.; Vione, D. 2010: Photochemical generation of reactive species upon irradiation of rainwater: negligible photoactivity of dissolved organic matter. Science of the Total Environment 408(16): 3367-3373
Shan, B.; Schmehl, R. 2014: Photochemical generation of strong one-electron reductants via light-induced electron transfer with reversible donors followed by cross reaction with sacrificial donors. Journal of Physical Chemistry. a 118(45): 10400-10406
Garcia-Garibay, M.A.; Dang, H. 2009: Photochemical generation, intramolecular reactions, and spectroscopic detection of oxonium ylide and carbene intermediates in a crystalline ortho-(1,3-dioxolan-2-yl)-diaryldiazomethane. Organic and Biomolecular Chemistry 7(6): 1106-1114
Marksteiner, D.; Wasser, S.; Schärtl, W. 2009: Photochemical gluing of colloidal particles by a simple interparticle polymerization route. Langmuir 25(22): 12843-12846
Yu, S.S.C.; Downard, A.J. 2007: Photochemical grafting and activation of organic layers on glassy carbon and pyrolyzed photoresist films. Langmuir 23(8): 4662-4668
Li, B.; Franking, R.; Landis, E.C.; Kim, H.; Hamers, R.J. 2009: Photochemical grafting and patterning of biomolecular layers onto TiO2 thin films. Acs Applied Materials and Interfaces 1(5): 1013-1022
Li, Y.; Zuilhof, H. 2012: Photochemical grafting and patterning of organic monolayers on indium tin oxide substrates. Langmuir 28(12): 5350-5359
Busson, M.; Berisha, A.; Combellas, C.; Kanoufi, F.éd.ér.; Pinson, J. 2011: Photochemical grafting of diazonium salts on metals. Chemical Communications 47(47): 12631-12633
Herrera, M.U.; Ichii, T.; Murase, K.; Sugimura, H. 2013: Photochemical grafting of methyl groups on a Si(111) surface using a Grignard reagent. Journal of Colloid and Interface Science 411: 145-151
Colavita, P.E.; Sun, B.; Tse, K.-Y.; Hamers, R.J. 2007: Photochemical grafting of n-alkenes onto carbon surfaces: the role of photoelectron ejection. Journal of the American Chemical Society 129(44): 13554-13565
Franking, R.; Kim, H.; Chambers, S.A.; Mangham, A.N.; Hamers, R.J. 2012: Photochemical grafting of organic alkenes to single-crystal TiO2 surfaces: a mechanistic study. Langmuir 28(33): 12085-12093
Saha, S.; Pal, A.; Kundu, S.; Basu, S.; Pal, T. 2010: Photochemical green synthesis of calcium-alginate-stabilized Ag and Au nanoparticles and their catalytic application to 4-nitrophenol reduction. Langmuir 26(4): 2885-2893
Dunn, S.; Jones, P.M.; Gallardo, D.E. 2007: Photochemical growth of silver nanoparticles on c(-) and c(+) domains on lead zirconate titanate thin films. Journal of the American Chemical Society 129(28): 8724-8728
Perrotta, R.R.; Winter, A.H.; Falvey, D.E. 2011: Photochemical heterolysis of 3,5-bis(dimethylamino)benzyl alcohols and esters: generation of a benzyl cation with a low-energy triplet state. Organic Letters 13(2): 212-215
Miyazaki, Y.; Kataoka, Y.; Mori, W. 2012: Photochemical hydrogen production from water using three-dimensional Zn-Pd metal-organic frameworks. Journal of Nanoscience and Nanotechnology 12(1): 439-445
Elkazaz, S.; Jones, P.B. 2010: Photochemical hydroxylation of 1-methyl-9,10-anthraquinones: synthesis of 9'-hydroxyaloesaponarin Ii. Journal of Organic Chemistry 75(2): 412-416
Sasaki, N.; Isu, A.; Ishii, R.; Sato, K. 2012: Photochemical immobilization of cells onto a glass substrate for in situ DNA analysis. Analytical Sciences: the International Journal of the Japan Society for Analytical Chemistry 28(6): 537-539
Pundir, S.; Gera, A.; Pundir, C.S. 2011: Photochemical immobilization of cucurbita fruit ascorbate oxidase onto polyethylene disc for determination of ascorbate in serum and foodstuffs. Artificial Cells Blood Substitutes and Immobilization Biotechnology 39(5): 324-329
Marcon, L.; Wang, M.; Coffinier, Y.; Le Normand, F.; Melnyk, O.; Boukherroub, R.; Szunerits, S. 2010: Photochemical immobilization of proteins and peptides on benzophenone-terminated boron-doped diamond surfaces. Langmuir 26(2): 1075-1080
Kamiya, H. 2012: Photochemical inactivation analysis of temporal dynamics of postsynaptic native AMPA receptors in hippocampal slices. Journal of Neuroscience: the Official Journal of the Society for Neuroscience 32(19): 6517-6524
Sagripanti, J.-L.; Grote, G.; Niederwöhrmeier, B.är.; Hülseweh, B.; Marschall, H.-J.ür. 2012: Photochemical inactivation of Pseudomonas aeruginosa. Photochemistry and Photobiology 88(1): 201-206
Sagripanti, J.-L.; Marschall, H.-J.ür.; Voss, L.; Hülseweh, B. 2011: Photochemical inactivation of alpha- and poxviruses. Photochemistry and Photobiology 87(6): 1369-1378
Tsetsarkin, K.A.; Sampson-Johannes, A.; Sawyer, L.; Kinsey, J.; Higgs, S.; Vanlandingham, D.L. 2013: Photochemical inactivation of chikungunya virus in human apheresis platelet components by amotosalen and UVA light. American Journal of Tropical Medicine and Hygiene 88(6): 1163-1169
Vanlandingham, D.L.; Keil, S.D.; Horne, K.M.; Pyles, R.; Goodrich, R.P.; Higgs, S. 2013: Photochemical inactivation of chikungunya virus in plasma and platelets using the Mirasol pathogen reduction technology system. Transfusion 53(2): 284-290
Cazenave, J-P. 2011: Photochemical inactivation of pathogens in platelets and plasma: five years of clinical use in routine and hemovigilance. Towards a change of paradigm in transfusion safety. Transfusion clinique et biologique: journal de la Societe francaise de transfusion sanguine 18(2): 53-61
Tofan, D.; Cummins, C.C. 2010: Photochemical incorporation of diphosphorus units into organic molecules. Angewandte Chemie 49(41): 7516-7518
Whidbey, C.M.; Daumit, K.E.; Nguyen, T.-H.; Ashworth, D.D.; Davis, J.C.C.; Latch, D.E. 2012: Photochemical induced changes of in vitro estrogenic activity of steroid hormones. Water Research 46(16): 5287-5296
Zidki, T.; Cohen, H.; Meyerstein, D. 2010: Photochemical induced growth and aggregation of metal nanoparticles in diode-array spectrophotometer via excited dimethyl-sulfoxide. Physical Chemistry Chemical Physics: Pccp 12(39): 12862-12867
Ma, J.; Chen, J.-Y.; Zhang, Y.; Wang, P.-N.; Guo, J.; Yang, W.-L.; Wang, C.-C. 2007: Photochemical instability of thiol-capped CdTe quantum dots in aqueous solution and living cells: process and mechanism. Journal of Physical Chemistry. B 111(41): 12012-12016
Ahmad, I.; Sheraz, M.A.; Ahmed, S.; Bano, R.; Vaid, F.H.M. 2012: Photochemical interaction of ascorbic acid with riboflavin, nicotinamide and alpha-tocopherol in cream formulations. International Journal of Cosmetic Science 34(2): 123-131
Becker, P.; Priebbenow, D.L.; Zhang, H.-J.; Pirwerdjan, R.; Bolm, C. 2014: Photochemical intermolecular silylacylations of electron-deficient internal alkynes. Journal of Organic Chemistry 79(2): 814-817
Johansen, P.ål.; Berg, K.; Selbo, P.K.; Hofbauer, G.F.L. 2010: Photochemical internalisation (PCI): a further development of photodynamic therapy for the treatment of skin cancer. Praxis 99(23): 1423-1428
Wang, J.T.-W.; Giuntini, F.; Eggleston, I.M.; Bown, S.G.; MacRobert, A.J. 2012: Photochemical internalisation of a macromolecular protein toxin using a cell penetrating peptide-photosensitiser conjugate. Journal of Controlled Release: Official Journal of the Controlled Release Society 157(2): 305-313
Adigbli, D.K.; MacRobert, A.J. 2012: Photochemical internalisation: the journey from basic scientific concept to the threshold of clinical application. Current Opinion in Pharmacology 12(4): 434-438
Norum, O.-J.; Selbo, P.ål.K.; Weyergang, A.; Giercksky, K.-E.; Berg, K. 2009: Photochemical internalization (PCI) in cancer therapy: from bench towards bedside medicine. Journal of Photochemistry and Photobiology. B Biology 96(2): 83-92
Berstad, M.B.; Weyergang, A.; Berg, K. 2012: Photochemical internalization (PCI) of HER2-targeted toxins: synergy is dependent on the treatment sequence. Biochimica et Biophysica Acta 1820(12): 1849-1858
Bostad, M.; Berg, K.; Høgset, A.; Skarpen, E.; Stenmark, H.; Selbo, P.ål.K. 2013: Photochemical internalization (PCI) of immunotoxins targeting CD133 is specific and highly potent at femtomolar levels in cells with cancer stem cell properties. Journal of Controlled Release: Official Journal of the Controlled Release Society 168(3): 317-326
Peng, W.; Samplonius, D.F.; de Visscher, S.; Roodenburg, J.L.N.; Helfrich, W.; Witjes, M.J.H. 2014: Photochemical internalization (PCI)-mediated enhancement of bleomycin cytotoxicity by liposomal mTHPC formulations in human head and neck cancer cells. Lasers in Surgery and Medicine 46(8): 650-658
Varkouhi, A.K.; Schiffelers, R.M.; van Steenbergen, M.J.; Lammers, T.; Hennink, W.E.; Storm, G. 2010: Photochemical internalization (PCI)-mediated enhancement of gene silencing efficiency of polymethacrylates and N,N,N-trimethylated chitosan (TMC) based siRNA polyplexes. Journal of Controlled Release: Official Journal of the Controlled Release Society 148(1): E98-E99
Berg, K.; Weyergang, A.; Prasmickaite, L.; Bonsted, A.; Høgset, A.; Strand, M.-T.R.; Wagner, E.; Selbo, P.ål.K. 2010: Photochemical internalization (PCI): a technology for drug delivery. Methods in Molecular Biology 635: 133-145
Norum, O.-J.; Giercksky, K.-E.; Berg, K. 2009: Photochemical internalization as an adjunct to marginal surgery in a human sarcoma model. Photochemical and Photobiological Sciences: Official Journal of the European Photochemistry Association and the European Society for Photobiology 8(6): 758-762
Weyergang, A.; Cheung, L.H.; Rosenblum, M.G.; Mohamedali, K.A.; Peng, Q.; Waltenberger, J.; Berg, K. 2014: Photochemical internalization augments tumor vascular cytotoxicity and specificity of VEGF(121)/rGel fusion toxin. Journal of Controlled Release: Official Journal of the Controlled Release Society 180: 1-9
Gargouri, M.; Sapin, A.; Arıca-Yegin, B.; Merlin, J.L.; Becuwe, P.; Maincent, P. 2011: Photochemical internalization for pDNA transfection: evaluation of poly(d,l-lactide-co-glycolide) and poly(ethylenimine) nanoparticles. International Journal of Pharmaceutics 403(1-2): 276-284
Stratford, E.W.; Bostad, M.; Castro, R.; Skarpen, E.; Berg, K.; Høgset, A.; Myklebost, O.; Selbo, P.ål.K. 2013: Photochemical internalization of CD133-targeting immunotoxins efficiently depletes sarcoma cells with stem-like properties and reduces tumorigenicity. Biochimica et Biophysica Acta 1830(8): 4235-4243
Norum, O.-J.; Bruland, Øy.S.; Gorunova, L.; Berg, K. 2009: Photochemical internalization of bleomycin before external-beam radiotherapy improves locoregional control in a human sarcoma model. International Journal of Radiation Oncology Biology Physics 75(3): 878-885
Mathews, M.S.; Blickenstaff, J.W.; Shih, E.-C.; Zamora, G.; Vo, V.; Sun, C.-H.; Hirschberg, H.; Madsen, S.J. 2012: Photochemical internalization of bleomycin for glioma treatment. Journal of Biomedical Optics 17(5): 058001
Weyergang, A.; Selbo, P.ål.K.; Berstad, M.E.B.; Bostad, M.; Berg, K. 2011: Photochemical internalization of tumor-targeted protein toxins. Lasers in Surgery and Medicine 43(7): 721-733
Selbo, P.ål.K.; Weyergang, A.; Høgset, A.; Norum, O.-J.; Berstad, M.B.; Vikdal, M.; Berg, K. 2010: Photochemical internalization provides time- and space-controlled endolysosomal escape of therapeutic molecules. Journal of Controlled Release: Official Journal of the Controlled Release Society 148(1): 2-12
Mathews, M.S.; Vo, V.; Shih, E.-C.; Zamora, G.; Sun, C.-H.; Madsen, S.J.; Hirschberg, H. 2012: Photochemical internalization-mediated delivery of chemotherapeutic agents in human breast tumor cell lines. Journal of Environmental Pathology Toxicology and Oncology: Official Organ of the International Society for Environmental Toxicology and Cancer 31(1): 49-59
Zamora, G.; Wang, F.; Sun, C-Ho.; Trinidad, A.; Kwon, Y.Jik.; Cho, S.Kyung.; Berg, K.; Madsen, S.J.; Hirschberg, H. 2014: Photochemical internalization-mediated nonviral gene transfection: polyamine core-shell nanoparticles as gene carrier. Journal of Biomedical Optics 19(10): 105009
Berg, K.; Berstad, M.; Prasmickaite, L.; Weyergang, A.; Selbo, P.ål.K.; Hedfors, I.; Høgset, A. 2010: Photochemical internalization: a new tool for gene and oligonucleotide delivery. Topics in Current Chemistry 296: 251-281
Mitamura, T.; Iwata, K.; Nomoto, A.; Ogawa, A. 2011: Photochemical intramolecular cyclization of o-alkynylaryl isocyanides with organic dichalcogenides leading to 2,4-bischalcogenated quinolines. Organic and Biomolecular Chemistry 9(10): 3768-3775
Ribeiro Santos, Aé.; Ballardini, R.; Belser, P.; Gandolfi, M.Teresa.; Iyer, V.Mahadevan.; Moggi, L. 2009: Photochemical investigation of a photochromic diarylethene compound that can be used as a wide range actinometer. Photochemical and Photobiological Sciences: Official Journal of the European Photochemistry Association and the European Society for Photobiology 8(12): 1734-1742
Krasnovsky, A.A.; Kozlov, A.S.; Roumbal, Y.V. 2012: Photochemical investigation of the IR absorption bands of molecular oxygen in organic and aqueous environment. Photochemical and Photobiological Sciences: Official Journal of the European Photochemistry Association and the European Society for Photobiology 11(6): 988-997
Grabenstetter, R.J.; Wig, E.O. 1947: Photochemical investigations; the photolysis of solutions of ethylene iodide. Journal of the American Chemical Society 69(5): 1027-1031
Ugolotti, J.; Kehr, G.; Fröhlich, R.; Erker, G. 2010: Photochemical isomerisation of boryl-substituted silole derivatives. Chemical Communications 46(17): 3016-3018
D'Auria, M.; Frenna, V.; Marullo, S.; Racioppi, R.; Spinelli, D.; Viggiani, L. 2012: Photochemical isomerization of aryl hydrazones of 1,2,4-oxadiazole derivatives into the corresponding triazoles. Photochemical and Photobiological Sciences: Official Journal of the European Photochemistry Association and the European Society for Photobiology 11(8): 1383-1388
Rostkowska, H.; Lapinski, L.; Kozankiewicz, B.; Nowak, M.J. 2012: Photochemical isomerizations of thiosemicarbazide, a matrix isolation study. Journal of Physical Chemistry. a 116(40): 9863-9871
Gassama, A.; Ernenwein, C.éd.; Hoffmann, N. 2009: Photochemical key steps in the synthesis of surfactants from furfural-derived intermediates. Chemsuschem 2(12): 1130-1137
Kamaev, P.; Friedman, M.D.; Sherr, E.; Muller, D. 2012: Photochemical kinetics of corneal cross-linking with riboflavin. Investigative Ophthalmology and Visual Science 53(4): 2360-2367
Reed Harris, A.E.; Ervens, B.; Shoemaker, R.K.; Kroll, J.A.; Rapf, R.J.; Griffith, E.C.; Monod, A.; Vaida, V. 2014: Photochemical kinetics of pyruvic acid in aqueous solution. Journal of Physical Chemistry. a 118(37): 8505-8516
Crawford, B.H. 1946: Photochemical laws and visual phenomena. Proceedings of the Royal Society of Medicine 133: 63-75
Welby, C.E.; Armitage, G.K.; Bartley, H.; Sinopoli, A.; Uppal, B.S.; Elliott, P.I.P. 2014: Photochemical ligand ejection from non-sterically promoted Ru(II)bis(diimine) 4,4'-bi-1,2,3-triazolyl complexes. Photochemical and Photobiological Sciences: Official Journal of the European Photochemistry Association and the European Society for Photobiology 13(5): 735-738
Sato, S.; Sekine, A.; Ohashi, Y.; Ishitani, O.; Blanco-Rodríguez, A.M.; Vlcek, A.ín.; Unno, T.; Koike, K. 2007: Photochemical ligand substitution reactions of fac-[Re(bpy)(CO)3Cl] and derivatives. Inorganic Chemistry 46(9): 3531-3540
Fomina, N.; Sankaranarayanan, J.; Almutairi, A. 2012: Photochemical mechanisms of light-triggered release from nanocarriers. Advanced Drug Delivery Reviews 64(11): 1005-1020
Tuna, D.; Sobolewski, A.L.; Domcke, W. 2014: Photochemical mechanisms of radiationless deactivation processes in urocanic acid. Journal of Physical Chemistry. B 118(4): 976-985
Vollmer, F.; Rettig, W.; Birckner, E. 1994: Photochemical mechanisms producing large fluorescence stokes shifts. Journal of Fluorescence 4(1): 65-69
Wendeln, C.; Rinnen, S.; Schulz, C.; Arlinghaus, H.F.; Ravoo, B.J. 2010: Photochemical microcontact printing by thiol-ene and thiol-yne click chemistry. Langmuir 26(20): 15966-15971
Klem, M.T.; Mosolf, J.; Young, M.; Douglas, T. 2008: Photochemical mineralization of europium, titanium, and iron oxyhydroxide nanoparticles in the ferritin protein cage. Inorganic Chemistry 47(7): 2237-2239
Castell, N.; Mantilla, E.; Salvador, R.; Stein, A.F.; Millán, M. 2010: Photochemical model evaluation of the surface ozone impact of a power plant in a heavily industrialized area of southwestern Spain. Journal of Environmental Management 91(3): 662-676
Cai, C.; Kelly, J.T.; Avise, J.C.; Kaduwela, A.P.; Stockwell, W.R. 2011: Photochemical modeling in California with two chemical mechanisms: model intercomparison and response to emission reductions. Journal of the Air and Waste Management Association 61(5): 559-572
Peng, Z.; Dobrijevic, M.; Hébrard, E.; Carrasco, N.; Pernot, P. 2010: Photochemical modeling of Titan atmosphere at the "10 percent uncertainty horizon". Faraday Discussions 147: 137-153; Discussion: 251-282
Carlton, A.G.; Baker, K.R. 2011: Photochemical modeling of the Ozark isoprene volcano: MEGAN, BEIS, and their impacts on air quality predictions. Environmental Science and Technology 45(10): 4438-4445
Blagoi, G.; Keller, S.; Persson, F.; Boisen, A.; Jakobsen, M.H. 2008: Photochemical modification and patterning of SU-8 using anthraquinone photolinkers. Langmuir 24(18): 9929-9932
Zheng, X.; Guo, D.; Shao, Y.; Jia, S.; Xu, S.; Zhao, B.; Xu, W.; Corredor, C.; Lombardi, J.R. 2008: Photochemical modification of an optical fiber tip with a silver nanoparticle film: a SERS chemical sensor. Langmuir 24(8): 4394-4398
Nakamura, T.; Ohana, T.; Hagiwara, Y.; Tsubota, T. 2009: Photochemical modification of diamond powders with elemental sulfur and their surface-attachment behavior on gold surfaces. Physical Chemistry Chemical Physics: Pccp 11(4): 730-734
Zinchenko, A.A.; Tanahashi, M.; Murata, S. 2012: Photochemical modulation of DNA conformation by organic dications. Chembiochem: a European Journal of Chemical Biology 13(1): 105-111
Abate-Pella, D.; Zeliadt, N.A.; Ochocki, J.D.; Warmka, J.K.; Dore, T.M.; Blank, D.A.; Wattenberg, E.V.; Distefano, M.D. 2012: Photochemical modulation of Ras-mediated signal transduction using caged farnesyltransferase inhibitors: activation by one- and two-photon excitation. Chembiochem: a European Journal of Chemical Biology 13(7): 1009-1016
Pradhan, S.; Patra, P.; Das, S.; Chandra, S.; Mitra, S.; Dey, K.Kumar.; Akbar, S.; Palit, P.; Goswami, A. 2013: Photochemical modulation of biosafe manganese nanoparticles on Vigna radiata: a detailed molecular, biochemical, and biophysical study. Environmental Science and Technology 47(22): 13122-13131
Kuwahara, Y.; Zhang, A.; Soma, H.; Tsuda, A. 2012: Photochemical molecular storage of Cl2, HCl, and COCl2: synthesis of organochlorine compounds, salts, ureas, and polycarbonate with photodecomposed chloroform. Organic Letters 14(13): 3376-3379
Ohashi, M.; Nakatani, K.; Maeda, H.; Mizuno, K. 2008: Photochemical monoalkylation of propanedinitrile by electron-rich alkenes. Organic Letters 10(13): 2741-2743
Sakai, K.; Imamoto, Y.; Su, C.-Y.; Tsukamoto, H.; Yamashita, T.; Terakita, A.; Yau, K.-W.; Shichida, Y. 2012: Photochemical nature of parietopsin. Biochemistry 51(9): 1933-1941
Araújo, T.M.R.; Canela, M.C.; Miranda, P.C.M.L. 2013: Photochemical nitro-nitrite rearrangement in methyl parathion decay under tropical conditions. Journal of Environmental Science and Health. Part. B Pesticides Food Contaminants and Agricultural Wastes 48(4): 251-259
Scherlach, K.; Brendel, N.; Ishida, K.; Dahse, H.-M.; Hertweck, C. 2012: Photochemical oxazole-nitrile conversion downstream of rhizoxin biosynthesis and its impact on antimitotic activity. Organic and Biomolecular Chemistry 10(30): 5756-5759
Zhao, S.; Surwade, S.P.; Li, Z.; Liu, H. 2012: Photochemical oxidation of CVD-grown single layer graphene. Nanotechnology 23(35): 355703
Jung, J.; Ohkubo, K.; Prokop-Prigge, K.A.; Neu, H.M.; Goldberg, D.P.; Fukuzumi, S. 2013: Photochemical oxidation of a manganese(III) complex with oxygen and toluene derivatives to form a manganese(V)-oxo complex. Inorganic Chemistry 52(23): 13594-13604
Neppolian, B.; Celik, E.; Choi, H. 2008: Photochemical oxidation of arsenic(III) to arsenic(V) using peroxydisulfate ions as an oxidizing agent. Environmental Science and Technology 42(16): 6179-6184
Cheng, M.; Bakac, A. 2008: Photochemical oxidation of halide ions by a nitratochromium(III) complex. Kinetics, mechanism, and intermediates. Journal of the American Chemical Society 130(16): 5600-5605
Li, F.-T.; Zhao, D.-S.; Li, H.-X.; Liu, R.-H. 2008: Photochemical oxidation of thiophene by O2 in an oil/acetonitrile two-phase extraction system. Annals of the new York Academy of Sciences 1140: 383-388
Bernardini, G.; Wedd, A.G.; Zhao, C.; Bond, A.M. 2012: Photochemical oxidation of water and reduction of polyoxometalate anions at interfaces of water with ionic liquids or diethylether. Proceedings of the National Academy of Sciences of the United States of America 109(29): 11552-11557
Jørgensen, K.år.B. 2010: Photochemical oxidative cyclisation of stilbenes and stilbenoids--the Mallory-reaction. Molecules 15(6): 4334-4358
Sako, M.; Shimada, K.; Hirota, K.; Maki, Y. 1986: Photochemical oxygen-atom transfer reaction by heterocycle N-oxides involving a single-electron transfer process: oxidative demethylation of N,N-dimethylaniline. Journal of the American Chemical Society 108(19): 6039-6041
Sexton, K.; Westberg, H. 1983: Photochemical ozone formation in urban and point source plumes. Environmental Science and Technology 17(4): 224-227
Kharasch, M.S.; Stampa, G.; Nudenberg, W. 1952: Photochemical para Rearrangement of Phenyl Ethers. Science 116(3012): 309
Ståhle, M.; Carlsson, B.; Le Blanc, K.; Korsgren, O.; Knutson, F. 2010: Photochemical pathogen inactivation of human serum enables its large-scale application in clinical cell transplantation. Vox Sanguinis 98(3 Part 1): E364-E365
Kvíderová, J. 2012: Photochemical performance of the acidophilic red alga Cyanidium sp. in a pH gradient. Origins of Life and Evolution of the Biosphere: the Journal of the International Society for the Study of the Origin of Life 42(2-3): 223-234
Qiao, X.; Shi, G.; Zheng, Z.; Huang, M.; Yang, H. 2014: Photochemical performance of thylakoid membrane in lead-treated Nymphoides peltatum. Bulletin of Environmental Contamination and Toxicology 93(2): 251-255
Kovac-Andrić, E.; Sorgo, G.; Kezele, N.; Cvitas, T.; Klasinc, L. 2010: Photochemical pollution indicators--an analysis of 12 European monitoring stations. Environmental Monitoring and Assessment 165(1-4): 577-583
Evans, M.G.; Uri, N. 1949: Photochemical polymerization in aqueous solution. Nature 164(4166): 404
Das, M.; Heyn, A.H.; Hoffman, M.Z.; Agarwal, R.P. 1970: Photochemical precipitation of thorium and cerium and their separation from other ions in aqueous solution. Talanta 17(10): 925-935
Chassot, L.; Von Zelewsky, A.; Sandrini, D.; Maestri, M.; Balzani, V. 1986: Photochemical preparation of luminescent platinum(IV) complexes via oxidative addition on luminescent platinum(II) complexes. Journal of the American Chemical Society 108(19): 6084-6085
Liu, Q.; Li, Y.-N.; Zhang, H.-H.; Chen, B.; Tung, C.-H.; Wu, L.-Z. 2011: Photochemical preparation of pyrimidin-2(1H)-ones by rhenium(I) complexes with visible light. Journal of Organic Chemistry 76(5): 1444-1447
Zaarour, M.; El Roz, M.; Dong, B.; Retoux, R.; Aad, R.; Cardin, J.; Dufour, C.; Gourbilleau, F.; Gilson, J-Pierre.; Mintova, S. 2014: Photochemical preparation of silver nanoparticles supported on zeolite crystals. Langmuir 30(21): 6250-6256
Kim, H.-C.; Reinhardt, H.; Hillebrecht, P.; Hampp, N.A. 2012: Photochemical preparation of sub-wavelength heterogeneous laser-induced periodic surface structures. Advanced Materials 24(15): 1994-1998
Gohdo, M.; Takamasu, T.; Wakasa, M. 2011: Photochemical primary process of photo-Fries rearrangement reaction of 1-naphthyl acetate as studied by MFE probe. Physical Chemistry Chemical Physics: Pccp 13(2): 755-761
Sakoh, A.; Takahashi, M.; Yoko, T.; Nishii, J.; Nishiyama, H.; Miyamoto, I. 2003: Photochemical process of divalent germanium responsible for photorefractive index change in GeO2-SiO2 glasses. Optics Express 11(21): 2679-2688
Laarmann, T.; Wabnitz, H.; von Haeften, K.; Möller, T. 2008: Photochemical processes in doped argon-neon core-shell clusters: the effect of cage size on the dissociation of molecular oxygen. Journal of Chemical Physics 128(1): 014502
Nese, C.; Unterreiner, A.-N. 2010: Photochemical processes in ionic liquids on ultrafast timescales. Physical Chemistry Chemical Physics: Pccp 12(8): 1698-1708
Mizuguchi, M.; Skuja, L.; Hosono, H.; Ogawa, T. 1999: Photochemical processes induced by 157-nm light in H(2)-impregnated glassy SiO(2):OH. Optics Letters 24(13): 863-865
De Laurentiis, E.; Minella, M.; Sarakha, M.; Marrese, A.; Minero, C.; Mailhot, G.; Brigante, M.; Vione, D. 2013: Photochemical processes involving the UV absorber benzophenone-4 (2-hydroxy-4-methoxybenzophenone-5-sulphonic acid) in aqueous solution: reaction pathways and implications for surface waters. Water Research 47(15): 5943-5953
Bonnot, F.; Houée-Levin, C.; Favaudon, V.; Nivière, V. 2010: Photochemical processes observed during the reaction of superoxide reductase from Desulfoarculus baarsii with superoxide: re-evaluation of the reaction mechanism. Biochimica et Biophysica Acta 1804(4): 762-767
Boldt, K.; Pörs, Y.; Haupt, B.; Bitterlich, M.; Kühn, C.; Grimm, B.; Franken, P. 2011: Photochemical processes, carbon assimilation and RNA accumulation of sucrose transporter genes in tomato arbuscular mycorrhiza. Journal of Plant Physiology 168(11): 1256-1263
Rowland, G.A.; Bausch, A.R.; Grannas, A.M. 2011: Photochemical processing of aldrin and dieldrin in frozen aqueous solutions under arctic field conditions. Environmental Pollution 159(5): 1076-1084
Petit, M.; Sempéré, R.; Vaultier, F.éd.ér.; Rontani, J.-F.ço. 2013: Photochemical production and behavior of hydroperoxyacids in heterotrophic bacteria attached to senescent phytoplanktonic cells. International Journal of Molecular Sciences 14(6): 11795-11815
Olasehinde, E.F.; Takeda, K.; Sakugawa, H. 2010: Photochemical production and consumption mechanisms of nitric oxide in seawater. Environmental Science and Technology 44(22): 8403-8408
Kim, J.A.; Kim, S.; Lee, J.; Baeg, J.-O.; Kim, J. 2012: Photochemical production of NADH using cobaloxime catalysts and visible-light energy. Inorganic Chemistry 51(15): 8057-8063
Guo, S.; He, X.; Chen, M.; Tan, J.; Wang, Y. 2014: Photochemical production of atmospheric carbonyls in a rural area in southern China. Archives of Environmental Contamination and Toxicology 66(4): 594-605
Sato, K.; Kataoka, Y.; Mori, W. 2012: Photochemical production of hydrogen from water using microporous porphyrin coordination lattices. Journal of Nanoscience and Nanotechnology 12(1): 585-590
De Laurentiis, E.; Minella, M.; Maurino, V.; Minero, C.; Brigante, M.; Mailhot, G.; Vione, D. 2012: Photochemical production of organic matter triplet states in water samples from mountain lakes, located below or above the tree line. Chemosphere 88(10): 1208-1213
Hurtgen, M.; Debuigne, A.; Hoebeke, M.; Passirani, C.; Lautram, N.; Mouithys-Mickalad, A.; Guelluy, P.-H.; Jérôme, C.; Detrembleur, C. 2013: Photochemical properties and activity of water-soluble polymer/c(60) nanohybrids for photodynamic therapy. Macromolecular Bioscience 13(1): 106-115
Liu, Y.; Zhang, P.; Li, H.; Tang, R.; Cui, R.r.; Wang, W. 2013: Photochemical properties and phototoxicity of Pazufloxacin: a stable and transient study. Journal of Photochemistry and Photobiology. B Biology 118: 58-65
Veselov, A.A.; Abraham, B.G.; Lemmetyinen, H.; Karp, M.T.; Tkachenko, N.V. 2012: Photochemical properties and sensor applications of modified yellow fluorescent protein (YFP) covalently attached to the surfaces of etched optical fibers (EOFs). Analytical and Bioanalytical Chemistry 402(3): 1149-1158
Park, E.; Ryu, J.; Choi, Y.; Hwang, K.-J.; Song, R. 2013: Photochemical properties and shape evolution of CdSe QDs in a non-injection reaction. Nanotechnology 24(14): 145601
Gao, J.; Zhang, Y.; Zhang, M.; Zhang, J.; Wang, S.; Tao, J.; Wang, H.; Luo, D.; Chai, F.; Ren, C. 2014: Photochemical properties and source of pollutants during continuous pollution episodes in Beijing, October, 2011. Journal of Environmental Sciences 26(1): 44-53
Lau, G.K.; Zhang, T.S.; Goh, G.K.L. 2010: Photochemical properties of CeO2-coated ZnO nanorods. Journal of Nanoscience and Nanotechnology 10(7): 4733-4737
Tsentalovich, Y.P.; Sherin, P.S.; Kopylova, L.V.; Cherepanov, I.V.; Grilj, J.; Vauthey, E. 2011: Photochemical properties of UV Filter molecules of the human eye. Investigative Ophthalmology and Visual Science 52(10): 7687-7696
Onoda, A.; Himiyama, T.; Ohkubo, K.; Fukuzumi, S.; Hayashi, T. 2012: Photochemical properties of a myoglobin-CdTe quantum dot conjugate. Chemical Communications 48(65): 8054-8056
Orkin, V.L.; Khamaganov, V.G.; Guschin, A.G. 2014: Photochemical properties of hydrofluoroethers CH3OCHF2, CH3OCF3, and CHF2OCH2CF3: reactivity toward OH, IR absorption cross sections, atmospheric lifetimes, and global warming potentials. Journal of Physical Chemistry. a 118(45): 10770-10777
Matsuyama, T.; Yamashita, T.; Imamoto, Y.; Shichida, Y. 2012: Photochemical properties of mammalian melanopsin. Biochemistry 51(27): 5454-5462
Tsukamoto, T.; Shimada, T.; Takagi, S. 2013: Photochemical properties of mono-, tri-, and penta-cationic antimony(V) metalloporphyrin derivatives on a clay layer surface. Journal of Physical Chemistry. a 117(33): 7823-7832
Bahrenburg, J.; Sievers, C.M.; Schönborn, J.B.; Hartke, B.; Renth, F.; Temps, F.; Näther, C.; Sönnichsen, F.D. 2013: Photochemical properties of multi-azobenzene compounds. Photochemical and Photobiological Sciences: Official Journal of the European Photochemistry Association and the European Society for Photobiology 12(3): 511-518
Ikeda, S.; Okamoto, A. 2007: Photochemical properties of novel fluorescent probes for detection of DNA. Nucleic Acids Symposium Series 51: 301-302
Orkin, V.L.; Khamaganov, V.G.; Kasimovskaya, E.E.; Guschin, A.G. 2013: Photochemical properties of some Cl-containing halogenated alkanes. Journal of Physical Chemistry. a 117(26): 5483-5490
Ferreira, D.P.; Conceição, D.S.; Ferreira, V.R.A.; Graça, V.C.; Santos, P.F.; Vieira Ferreira, L.F. 2013: Photochemical properties of squarylium cyanine dyes. Photochemical and Photobiological Sciences: Official Journal of the European Photochemistry Association and the European Society for Photobiology 12(11): 1948-1959
Orkin, V.L.; Martynova, L.E.; Kurylo, M.J. 2014: Photochemical properties of trans-1-chloro-3,3,3-trifluoropropene (trans-CHCl═CHCF3): OH reaction rate constant, UV and IR absorption spectra, global warming potential, and ozone depletion potential. Journal of Physical Chemistry. a 118(28): 5263-5271
Hanek, A.P.; Lester, H.A.; Dougherty, D.A. 2010: Photochemical proteolysis of an unstructured linker of the GABAAR extracellular domain prevents GABA but not pentobarbital activation. Molecular Pharmacology 78(1): 29-35
Torres, O.; Procacci, B.; Halse, M.E.; Adams, R.W.; Blazina, D.; Duckett, S.B.; Eguillor, B.; Green, R.A.; Perutz, R.N.; Williamson, D.C. 2014: Photochemical pump and NMR probe: chemically created NMR coherence on a microsecond time scale. Journal of the American Chemical Society 136(28): 10124-10131
Jagadesan, P.; Mondal, B.; Parthasarathy, A.; Rao, V.J.; Ramamurthy, V. 2013: Photochemical reaction containers as energy and electron-transfer agents. Organic Letters 15(6): 1326-1329
Makarov, V.I.; Kochubei, S.A.; Khmelinskii, I. 2010: Photochemical reaction dynamics in SO(2)-acetylene complexes. Journal of Chemical Physics 132(22): 224309
Okuda, M.; Katayama, K. 2008: Photochemical reaction dynamics measured using the near-field heterodyne transient grating method. Journal of Physical Chemistry. a 112(20): 4545-4549
Hayashi, S.; Tajkhorshid, E.; Schulten, K. 2009: Photochemical reaction dynamics of the primary event of vision studied by means of a hybrid molecular simulation. Biophysical Journal 96(2): 403-416
Wu, M.; Strid, Åke.; Eriksson, L.A. 2014: Photochemical reaction mechanism of UV-B-induced monomerization of UVR8 dimers as the first signaling event in UV-B-regulated gene expression in plants. Journal of Physical Chemistry. B 118(4): 951-965
Suzuki, T.; Shinoda, M.; Osanai, Y.; Isozaki, T. 2013: Photochemical reaction of 2-(3-benzoylphenyl)propionic acid (ketoprofen) with basic amino acids and dipeptides. Journal of Physical Chemistry. B 117(33): 9662-9668
Stewart, G.; Jiao, Y.; Valente, E.J.; Fu, P.P.; Li, T.; Hu, Z.; Yu, H. 2009: Photochemical reaction of 9-nitro-substituted anthracene-like molecules 9-methyl-10-nitroanthracene and 12-methyl-7-nitrobenz[a]anthracene. Journal of Photochemistry and Photobiology. A Chemistry 201(1): 39-44
Belyaeva, O.B.; Bersonova, E.R.; Litvin, E.F. 1983: Photochemical reaction of chlorophyll biosynthesis at 4.2 K. Photosynthesis Research 4(1): 81-85
Grubsky, V.; Starodubov, D.S.; Feinberg, J. 1999: Photochemical reaction of hydrogen with germanosilicate glass initiated by 3.4 5.4-eV ultraviolet light. Optics Letters 24(11): 729-731
Usman, A.; Asahi, T.; Sugiyama, T.; Masuhara, H.; Tohnai, N.; Miyata, M. 2010: Photochemical reaction of p-hydroxycinnamic-thiophenyl ester in the microcrystalline state. Journal of Physical Chemistry. B 114(45): 14233-14240
Yamada, Y.; Tamura, H.; Takeda, D. 2011: Photochemical reaction of sulfur hexafluoride with water in low-temperature xenon matrices. Journal of Chemical Physics 134(10): 104302
Kong, Q.; Wulff, M.; Lee, J.H.; Bratos, S.; Ihee, H. 2007: Photochemical reaction pathways of carbon tetrabromide in solution probed by picosecond X-ray diffraction. Journal of the American Chemical Society 129(44): 13584-13591
Ge, L.-K.; Li, K.; Yang, K.; Na, G.-S.; Yu, C.-Y.; Zhang, P.; Yao, Z.-W. 2013: Photochemical reaction types of the azole fungicide fluconazole under UV-vis irradiation. Huan Jing Ke Xue= Huanjing Kexue 34(8): 3132-3136
Turro, N.J.; Schuster, G. 1975: Photochemical reactions as a tool in organic syntheses. Science 187(4174): 303-312
Bach, T.; Hehn, J.ör.P. 2011: Photochemical reactions as key steps in natural product synthesis. Angewandte Chemie 50(5): 1000-1045
Hoffmann, N. 2008: Photochemical reactions as key steps in organic synthesis. Chemical Reviews 108(3): 1052-1103
Boggio-Pasqua, M.; Burmeister, C.F.; Robb, M.A.; Groenhof, G. 2012: Photochemical reactions in biological systems: probing the effect of the environment by means of hybrid quantum chemistry/molecular mechanics simulations. Physical Chemistry Chemical Physics: Pccp 14(22): 7912-7928
Takagi, K.; Suddaby, B.R.; Vadas, S.L.; Backer, C.A. 1986: Photochemical reactions in organized assemblies. 49. Topological control of reactivity by interfacial orientation: excimer fluorescence and photodimerization of 4-stilbazolium cations in aerosol Ot reversed micelles. Journal of the American Chemical Society 108(24): 7865-7867
Schonberg, A.; Ahmed Mustafa 1947: Photochemical reactions in sunlight; reactions with phenanthraquinone, 9-arylxanthens, and diphenyl triketone. Journal of the Chemical Society 1947: 997-1000
Bilski, P.J.; Wolak, M.A.; Zhang, V.; Moore, D.E.; Chignell, C.F. 2009: Photochemical reactions involved in the phototoxicity of the anticonvulsant and antidepressant drug lamotrigine (Lamictal). Photochemistry and Photobiology 85(6): 1327-1335
Wenska, G.; Taras-Goslinska, K.; Filipiak, P.; Hug, G.L.; Marciniak, B. 2008: Photochemical reactions of 4-thiouridine disulfide and 4-benzylthiouridine--the involvement of the 4-pyrimidinylthiyl radical. Photochemical and Photobiological Sciences: Official Journal of the European Photochemistry Association and the European Society for Photobiology 7(2): 250-256
Hoffmann, N. 2012: Photochemical reactions of aromatic compounds and the concept of the photon as a traceless reagent. Photochemical and Photobiological Sciences: Official Journal of the European Photochemistry Association and the European Society for Photobiology 11(11): 1613-1641
Si, L.; Ariya, P.A. 2015: Photochemical reactions of divalent mercury with thioglycolic acid: formation of mercuric sulfide particles. Chemosphere 119: 467-472
De Aguiar, I.; Inglez, S.D.; Lima, F.C.A.; Daniel, J.F.S.; McGarvey, B.R.; Tedesco, A.ôn.C.; Carlos, R.M. 2008: Photochemical reactions of fac-[Mn(CO)3(phen)imidazole]+: evidence for long-lived radical species intermediates. Inorganic Chemistry 47(24): 11519-11526
Nishioka, K.; Niidome, Y.; Yamada, S. 2007: Photochemical reactions of ketones to synthesize gold nanorods. Langmuir 23(20): 10353-10356
Christl, M.; Braun, M.; Deeg, O. 2013: Photochemical reactions of tetrachloro-1,4-benzoquinone (chloranil) with tricyclo[4.1.0.0(2,7)]heptane (Moore's hydrocarbon) and bicyclo[4.1.0]hept-2-ene (2-norcarene). Organic and Biomolecular Chemistry 11(17): 2811-2817
Zhang, P.; Maeda, S.; Morokuma, K.; Braams, B.J. 2009: Photochemical reactions of the low-lying excited states of formaldehyde: T1/S0 intersystem crossings, characteristics of the S1 and T1 potential energy surfaces, and a global T1 potential energy surface. Journal of Chemical Physics 130(11): 114304
Sakamaki, F.; Akimoto, H.; Okuda, M. 1981: Photochemical reactivity and ozone formation in 1-olefin-nitrogen oxide-air systems. Environmental Science and Technology 15(6): 665-671
Sakamoto, M.; Tachikawa, T.; Fujitsuka, M.; Majima, T. 2009: Photochemical reactivity of gold clusters: dependence on size and spin multiplicity. Langmuir 25(24): 13888-13893
Liu, H.; Ryu, S.; Chen, Z.; Steigerwald, M.L.; Nuckolls, C.; Brus, L.E. 2009: Photochemical reactivity of graphene. Journal of the American Chemical Society 131(47): 17099-17101
Vaalgamaa, S.; Vähätalo, A.V.; Perkola, N.; Huhtala, S. 2011: Photochemical reactivity of perfluorooctanoic acid (PFOA) in conditions representing surface water. Science of the Total Environment 409(16): 3043-3048
Grabo, J.E.; Chrisman, M.A.; Webb, L.M.; Baldwin, M.J. 2014: Photochemical reactivity of the iron(III) complex of a mixed-donor, α-hydroxy acid-containing chelate and its biological relevance to photoactive marine siderophores. Inorganic Chemistry 53(11): 5781-5787
Winter, D.K.; Drouin, A.; Lessard, J.; Spino, C. 2010: Photochemical rearrangement of N-chlorolactams: a route to N-heterocycles through concerted ring contraction. Journal of Organic Chemistry 75(8): 2610-2618
Drouin, A.; Winter, D.K.; Pichette, S.; Aubert-Nicol, S.; Lessard, J.; Spino, C. 2011: Photochemical rearrangement of N-mesyloxylactams: stereospecific formation of N-heterocycles. Journal of Organic Chemistry 76(1): 164-169
Lledó, A.í; Benet-Buchholz, J.; Solé, A.; Olivella, S.; Verdaguer, X.; Riera, A. 2007: Photochemical rearrangements of norbornadiene Pauson-Khand cycloadducts. Angewandte Chemie 46(31): 5943-5946
Lin, C.-J.; Hsu, C.-S.; Wang, P.-Y.; Lin, Y.-L.; Lo, Y.-S.; Wu, C.-H. 2014: Photochemical redox reactions of copper(II)-alanine complexes in aqueous solutions. Inorganic Chemistry 53(10): 4934-4943
Ikuta, N.; Takizawa, S.-y.; Murata, S. 2014: Photochemical reduction of CO2 with ascorbate in aqueous solution using vesicles acting as photocatalysts. Photochemical and Photobiological Sciences: Official Journal of the European Photochemistry Association and the European Society for Photobiology 13(4): 691-702
Yui, T.; Kan, A.; Saitoh, C.; Koike, K.; Ibusuki, T.; Ishitani, O. 2011: Photochemical reduction of CO₂ using TiO₂: effects of organic adsorbates on TiO₂ and deposition of Pd onto TiO₂. Acs Applied Materials and Interfaces 3(7): 2594-2600
Tsushima, S. 2009: Photochemical reduction of UO(2)(2+) in the presence of alcohol studied by density functional theory calculations. Inorganic Chemistry 48(11): 4856-4862
Khenkin, A.M.; Efremenko, I.; Weiner, L.; Martin, J.M.L.; Neumann, R. 2010: Photochemical reduction of carbon dioxide catalyzed by a ruthenium-substituted polyoxometalate. Chemistry 16(4): 1356-1364
Boston, D.J.; Xu, C.; Armstrong, D.W.; MacDonnell, F.M. 2013: Photochemical reduction of carbon dioxide to methanol and formate in a homogeneous system with pyridinium catalysts. Journal of the American Chemical Society 135(44): 16252-16255
Mohana Rao, A.R.; Rao, M.S.; Ramana, K.V.; Sagi, S.R. 1989: Photochemical reduction of thallium(III) with hydrogen peroxide. Talanta 36(6): 686-687
Peñuelas, J.; Garbulsky, M.F.; Filella, I. 2011: Photochemical reflectance index (PRI) and remote sensing of plant CO₂ uptake. New Phytologist 191(3): 596-599
Lindgren, N.Johan.V.; Varedian, M.; Gogoll, A. 2009: Photochemical regulation of an artificial hydrolase by a backbone incorporated tertiary structure switch. Chemistry 15(2): 501-505
Young, D.D.; Govan, J.M.; Lively, M.O.; Deiters, A. 2009: Photochemical regulation of restriction endonuclease activity. Chembiochem: a European Journal of Chemical Biology 10(10): 1612-1616
Porcal, P.; Amirbahman, A.; Kopácek, J.í; Novák, F.; Norton, S.A. 2009: Photochemical release of humic and fulvic acid-bound metals from simulated soil and streamwater. Journal of Environmental Monitoring: Jem 11(5): 1064-1071
Choi, S.K.; Thomas, T.P.; Li, M.-H.; Desai, A.; Kotlyar, A.; Baker, J.R. 2012: Photochemical release of methotrexate from folate receptor-targeting PAMAM dendrimer nanoconjugate. Photochemical and Photobiological Sciences: Official Journal of the European Photochemistry Association and the European Society for Photobiology 11(4): 653-660
Tsuji, M.; Kawahara, M.; Noda, K.; Senda, M.; Sako, H.; Kamo, N.; Kawahara, T.; Kamarudin, K.Sozana.Nor. 2009: Photochemical removal of NO(2) by using 172-nm Xe(2) excimer lamp in N(2) or air at atmospheric pressure. Journal of Hazardous Materials 162(2-3): 1025-1033
Baergen, A.M.; Donaldson, D.J. 2013: Photochemical renoxification of nitric acid on real urban grime. Environmental Science and Technology 47(2): 815-820
Franco, R.A.; Dowdall, J.R.; Bujold, K.; Amann, C.; Faquin, W.; Redmond, R.W.; Kochevar, I.E. 2011: Photochemical repair of vocal fold microflap defects. Laryngoscope 121(6): 1244-1251
Polosukhina, A.; Litt, J.; Tochitsky, I.; Nemargut, J.; Sychev, Y.; De Kouchkovsky, I.; Huang, T.; Borges, K.; Trauner, D.; Van Gelder, R.N.; Kramer, R.H. 2012: Photochemical restoration of visual responses in blind mice. Neuron 75(2): 271-282
Arruda, B.C.; Peng, J.; Smith, B.; Spears, K.G.; Sension, R.J. 2013: Photochemical ring-opening and ground state relaxation in α-terpinene with comparison to provitamin D3. Journal of Physical Chemistry. B 117(16): 4696-4704
Cyr, D.; Shrestha, S.; Das, P. 2013: Photochemical ring-opening in 2,3-diphenyl aziridines. Transient-spectral and kinetic behavior of azomethine ylides and related photointermediates. Journal of Physical Chemistry. a 117(47): 12332-12349
Schönborn, J.B.; Sielk, J.; Hartke, B. 2010: Photochemical ring-opening of cyclohexadiene: quantum wavepacket dynamics on a global ab initio potential energy surface. Journal of Physical Chemistry. a 114(12): 4036-4044
Ward, A.L.; Lukens, W.W.; Lu, C.C.; Arnold, J. 2014: Photochemical route to actinide-transition metal bonds: synthesis, characterization and reactivity of a series of thorium and uranium heterobimetallic complexes. Journal of the American Chemical Society 136(9): 3647-3654
Barreca, S.; Orecchio, S.; Pace, A. 2013: Photochemical sample treatment for extracts clean up in PCB analysis from sediments. Talanta 103: 349-354
Barreca, S.; Orecchio, S.; Pace, A. 2014: Photochemical sample treatment: a greener approach to chlorobenzene determination in sediments. Talanta 129: 263-269
O'Neill, A.C.; Randolph, M.A.; Bujold, K.E.; Kochevar, I.E.; Redmond, R.W.; Winograd, J.M. 2009: Photochemical sealing improves outcome following peripheral neurorrhaphy. Journal of Surgical Research 151(1): 33-39
Geosling, C.E.; Donohue, T. 1984: Photochemical separation of xenon and krypton. Environmental Science and Technology 18(4): 262-264
Torimoto, T.; Hashitani, M.; Konishi, T.; Okazaki, K.-i.; Shibayama, T.; Ohtani, B. 2009: Photochemical shape control of cadmium sulfide nanorods coated with an amorphous silica thin layer. Journal of Nanoscience and Nanotechnology 9(1): 506-513
Galian, R.E.; de la Guardia, M.; Pérez-Prieto, J. 2009: Photochemical size reduction of CdSe and CdSe/ZnS semiconductor nanoparticles assisted by n pi* aromatic ketones. Journal of the American Chemical Society 131(3): 892-893
Maugh, T.H. 1976: Photochemical smog: is it safe to treat the air?. Science 193(4256): 871-873
Huybrechts, T.; Hermans, M.; Van Hoof, B.; Winderickx, G.; De Neef, C.; Hostyn, S.; Vrielynck, S.; Vermeulen, W. 2012: Photochemical stability of 4'-azido-2'-deoxy-2'-methylcytidine hydrochloride: structural elucidation of major degradation products by LC-MS and NMR analysis. Journal of Pharmaceutical and Biomedical Analysis 70: 231-244
Otomo, A.; Otomo, S.; Yokoyama, S.; Mashiko, S. 2002: Photochemical stability of encapsulated laser dyes in dendritic nanoboxes against singlet oxygen. Optics Letters 27(11): 891-893
Matsugo, S.; Bito, T.; Konishi, T. 2011: Photochemical stability of lipoic acid and its impact on skin ageing. Free Radical Research 45(8): 918-924
Rezzonico, D.; Kwon, S.-J.; Figi, H.; Kwon, O.-P.; Jazbinsek, M.; Günter, P. 2008: Photochemical stability of nonlinear optical chromophores in polymeric and crystalline materials. Journal of Chemical Physics 128(12): 124713
Stappaerts, E.A. 1977: Photochemical stability of rare-gas halide laser-pumped dyes. Applied Optics 16(12): 3079-3080
Liu, T.; Ding, L.; He, G.; Yang, Y.; Wang, W.; Fang, Y. 2011: Photochemical stabilization of terthiophene and its utilization as a new sensing element in the fabrication of monolayer-chemistry-based fluorescent sensing films. Acs Applied Materials and Interfaces 3(4): 1245-1253
Boulanger, E.; Anoop, A.; Nachtigallova, D.; Thiel, W.; Barbatti, M. 2013: Photochemical steps in the prebiotic synthesis of purine precursors from HCN. Angewandte Chemie 52(31): 8000-8003
Fukushima, T.; Fujita, E.; Muckerman, J.T.; Polyansky, D.E.; Wada, T.; Tanaka, K. 2009: Photochemical stereospecific hydrogenation of a Ru complex with an NAD(+)/NADH-type ligand. Inorganic Chemistry 48(24): 11510-11512
McGilvray, K.L.; Fasciani, C.; Bueno-Alejo, C.J.; Schwartz-Narbonne, R.; Scaiano, J.C. 2012: Photochemical strategies for the seed-mediated growth of gold and gold-silver nanoparticles. Langmuir 28(46): 16148-16155
Marin, M.Luisa.; McGilvray, K.L.; Scaiano, J.C. 2008: Photochemical strategies for the synthesis of gold nanoparticles from Au(III) and Au(I) using photoinduced free radical generation. Journal of the American Chemical Society 130(49): 16572-16584
Clark, J.L.; Duckett, S.B. 2014: Photochemical studies of (η5-C5H5)Ru(PPh3)2Cl and (η5-C5H5)Ru(PPh3)2Me: formation of Si-H and C-H bond activation products. Dalton Transactions 43(3): 1162-1171
Jockusch, S.; Turro, N.J.; Banala, S.; Kräutler, B. 2014: Photochemical studies of a fluorescent chlorophyll catabolite--source of bright blue fluorescence in plant tissue and efficient sensitizer of singlet oxygen. Photochemical and Photobiological Sciences: Official Journal of the European Photochemistry Association and the European Society for Photobiology 13(2): 407-411
Shao, Y.; Yang, C.; Gui, W.; Liu, Y.; Xia, W. 2012: Photochemical studies on aromatic γ,δ-epoxy ketones: efficient synthesis of benzocyclobutanones and indanones. Chemical Communications 48(29): 3560-3562
Tong, J.-q.; Zhang, H.-x.; Yang, H.-m.; Mei, P. 2010: Photochemical studies on the binding of an organic fluoride to bovine serum albumin. Molecular Biology Reports 37(4): 1741-1747
Cisse, A.L.; Grossman, E.; Sibener, S.J. 2008: Photochemical study of the transport properties of gases in polymer films. Journal of Physical Chemistry. B 112(24): 7166-7170
Pritchina, E.A.; Gritsan, N.P.; Zibarev, A.V.; Bally, T. 2009: Photochemical study on the reactivity of tetrasulfur tetranitride, S4N4. Inorganic Chemistry 48(9): 4075-4082
Jonkheijm, P.; Weinrich, D.; Köhn, M.; Engelkamp, H.; Christianen, P.C.M.; Kuhlmann, J.ür.; Maan, J.C.; Nüsse, D.; Schroeder, H.; Wacker, R.; Breinbauer, R.; Niemeyer, C.M.; Waldmann, H. 2008: Photochemical surface patterning by the thiol-ene reaction. Angewandte Chemie 47(23): 4421-4424
Lev, B.; Chernyshuk, S.B.; Yamamoto, T.; Yamamoto, J.; Yokoyama, H. 2008: Photochemical switching between colloidal photonic crystals at the nematic-air interface. Physical Review. E Statistical Nonlinear and Soft Matter Physics 78(2 Part 1): 020701
Silvi, S.; Constable, E.C.; Housecroft, C.E.; Beves, J.E.; Dunphy, E.L.; Tomasulo, M.; Raymo, Fçisco.M.; Credi, A. 2009: Photochemical switching of luminescence and singlet oxygen generation by chemical signal communication. Chemical Communications 2009(12): 1484-1486
Zhang, J.; Riskin, M.; Tel-Vered, R.; Tian, H.; Willner, I. 2011: Photochemical switching of the phase-transition temperatures of p-NIPAM-Pt nanoparticles thermosensitive polymer composites associated with electrodes: functional electrodes for switchable electrocatalysis. Chemistry 17(40): 11237-11242
Wessig, P.; Matthes, A. 2013: Photochemical synthesis and properties of 1,6- and 1,8-naphthalenophanes. Molecules 18(1): 1314-1324
Carr, M.J.; McGrath, T.D.; Stone, F.G.A. 2008: Photochemical synthesis and reactivity studies of dirhenacarboranes. Inorganic Chemistry 47(2): 713-722
Zhao, Y.; Cai, X.; Danilov, E.; Li, G.; Neckers, D.C. 2009: Photochemical synthesis of 2,3,9,10-tetrabromopentacene: its unusual photodimerization. Photochemical and Photobiological Sciences: Official Journal of the European Photochemistry Association and the European Society for Photobiology 8(1): 34-36
Blankespoor, R.L.; Boldenow, P.J.; Hansen, E.C.; Kallemeyn, J.M.; Lohse, A.G.; Rubush, D.M.; Vrieze, D. 2009: Photochemical synthesis of 3-alkynals from 1-alkynoxy-9,10-anthraquinones. Journal of Organic Chemistry 74(10): 3933-3935
Pehkonen, S.; Marushkevich, K.; Khriachtchev, L.; Räsänen, M.; Grigorenko, B.L.; Nemukhin, A.V. 2007: Photochemical synthesis of H2O2 from the H2O...O(3P) van der Waals complex: experimental observations in solid krypton and theoretical modeling. Journal of Physical Chemistry. a 111(45): 11444-11449
Aldemir, M.üg.; Heinemann, F.W.; Kisch, H. 2012: Photochemical synthesis of N-adamantylhomoallylamines through addition of cyclic olefins to imines catalyzed by alumina grafted cadmium sulfide. Photochemical and Photobiological Sciences: Official Journal of the European Photochemistry Association and the European Society for Photobiology 11(6): 908-913
Ogino, M.; Fujimoto, K. 2007: Photochemical synthesis of R-shaped DNA via 5-cyanovinyldeoxyuridine. Nucleic Acids Symposium Series 51: 231-232
Araneda, J.F.; Neue, B.; Piers, W.E.; Parvez, M. 2012: Photochemical synthesis of a ladder diborole: a new boron-containing conjugate material. Angewandte Chemie 51(34): 8546-8550
Wee, T.-L.; Sherman, B.D.; Gust, D.; Moore, A.L.; Moore, T.A.; Liu, Y.; Scaiano, J.C. 2011: Photochemical synthesis of a water oxidation catalyst based on cobalt nanostructures. Journal of the American Chemical Society 133(42): 16742-16745
Pal, A.; Esumi, K. 2007: Photochemical synthesis of biopolymer coated Aucore-Agshell type bimetallic nanoparticles. Journal of Nanoscience and Nanotechnology 7(6): 2110-2115
Webber, D.H.; Brutchey, R.L. 2011: Photochemical synthesis of bismuth selenide nanocrystals in an aqueous micellar solution. Inorganic Chemistry 50(3): 723-725
Saladino, R.; Brucato, J.R.; De Sio, A.; Botta, G.; Pace, E.; Gambicorti, L. 2011: Photochemical synthesis of citric acid cycle intermediates based on titanium dioxide. Astrobiology 11(8): 815-824
Ko, C.-C.; Lo, L.T.-L.; Ng, C.-O.; Yiu, S.-M. 2010: Photochemical synthesis of intensely luminescent isocyano rhenium(I) complexes with readily tunable structural features. Chemistry 16(46): 13773-13782
Sato, S.; Morimoto, T.; Ishitani, O. 2007: Photochemical synthesis of mer-[Re(bpy)(CO)3Cl. Inorganic Chemistry 46(22): 9051-9053
Gu, H.; Yang, Y.; Tian, J.; Shi, G. 2013: Photochemical synthesis of noble metal (Ag, Pd, Au, Pt) on graphene/ZnO multihybrid nanoarchitectures as electrocatalysis for H2O2 reduction. Acs Applied Materials and Interfaces 5(14): 6762-6768
Jaffer, M.; Ebead, A.; Lee-Ruff, E. 2010: Photochemical synthesis of nucleoside analogues from cyclobutanones: bicyclic and isonucleosides. Molecules 15(6): 3816-3828
Matveeva, E.D.; Podrugina, T.A.; Taranova, M.A.; Borisenko, A.A.; Mironov, A.V.; Gleiter, R.; Zefirov, N.S. 2011: Photochemical synthesis of phosphinolines from phosphonium-iodonium ylides. Journal of Organic Chemistry 76(2): 566-572
Kuttner, C.; Tebbe, M.; Schlaad, H.; Burgert, I.; Fery, A. 2012: Photochemical synthesis of polymeric fiber coatings and their embedding in matrix material: morphology and nanomechanical properties at the fiber-matrix interface. Acs Applied Materials and Interfaces 4(7): 3484-3492
Harada, M.; Kimura, Y.; Saijo, K.; Ogawa, T.; Isoda, S. 2009: Photochemical synthesis of silver particles in Tween 20/water/ionic liquid microemulsions. Journal of Colloid and Interface Science 339(2): 373-381
Harada, M.; Kawasaki, C.; Saijo, K.; Demizu, M.; Kimura, Y. 2010: Photochemical synthesis of silver particles using water-in-ionic liquid microemulsions in high-pressure CO2. Journal of Colloid and Interface Science 343(2): 537-545
Long, J.; Dong, J.; Wang, X.; Ding, Z.; Zhang, Z.; Wu, L.; Li, Z.; Fu, X. 2009: Photochemical synthesis of submicron- and nano-scale Cu2O particles. Journal of Colloid and Interface Science 333(2): 791-799
Waeckerle-Men, Y.; Mauracher, A.; Håkerud, M.; Mohanan, D.; Kündig, T.M.; Høgset, A.; Johansen, P.ål. 2013: Photochemical targeting of antigens to the cytosol for stimulation of MHC class-I-restricted T-cell responses. European Journal of Pharmaceutics and Biopharmaceutics: Official Journal of Arbeitsgemeinschaft für Pharmazeutische Verfahrenstechnik E.V 85(1): 34-41
Sagi, S.R.; Rao, K.A.; Rao, M.S. 1983: Photochemical thallimetric oxidations-estimation of formic acid. Talanta 30(4): 282-284
Gu, C.; Wang, Y.; Yao, M.; Fang, Y. 2011: Photochemical tissue bonding technique for repairing limbal stem cell deficiency. Zhongguo Xiu Fu Chong Jian Wai Ke Za Zhi 25(9): 1110-1114
Lauto, A.; Mawad, D.; Barton, M.; Gupta, A.; Piller, S.C.; Hook, J. 2010: Photochemical tissue bonding with chitosan adhesive films. Biomedical Engineering Online 9: 47
Gu, C.; Ni, T.; Verter, E.E.; Redmond, R.W.; Kochevar, I.E.; Yao, M. 2011: Photochemical tissue bonding: a potential strategy for treating limbal stem cell deficiency. Lasers in Surgery and Medicine 43(5): 433-442
Meek, M. 2008: Photochemical tissue bonding: a promising technique for peripheral nerve repair. Journal of Surgical Research 149(2): 169-170
Mbatia, H.W.; Burdette, S.C. 2012: Photochemical tools for studying metal ion signaling and homeostasis. Biochemistry 51(37): 7212-7224
Specht, A.; Bolze, F.éd.ér.; Omran, Z.; Nicoud, J.-F.ço.; Goeldner, M. 2009: Photochemical tools to study dynamic biological processes. Hfsp Journal 3(4): 255-264
Sahu, R.K.; Singh, B.; Saraf, S.A.; Kaithwas, G.; Kishor, K. 2014: Photochemical toxicity of drugs intended for ocular use. Arhiv Za Higijenu Rada i Toksikologiju 65(2): 157-167
Cheng, H.R.; Saunders, S.M.; Guo, H.; Louie, P.K.K.; Jiang, F. 2013: Photochemical trajectory modeling of ozone concentrations in Hong Kong. Environmental Pollution 180: 101-110
Köppen, R.; Riedel, J.; Proske, M.; Drzymala, S.; Rasenko, T.; Durmaz, V.; Weber, M.; Koch, M. 2012: Photochemical trans-/cis-isomerization and quantitation of zearalenone in edible oils. Journal of Agricultural and Food Chemistry 60(47): 11733-11740
Li, Y.; Niu, J.; Shang, E.; Crittenden, J. 2014: Photochemical transformation and photoinduced toxicity reduction of silver nanoparticles in the presence of perfluorocarboxylic acids under UV irradiation. Environmental Science and Technology 48(9): 4946-4953
Zhao, Q.; Zhao, H.; Quan, X.; Chen, S.; Zhang, Y. 2014: Photochemical transformation of 2,2',4,4'-tetrabromodiphenyl ether (BDE-47) in surface coastal waters: effects of chloride and ferric ions. Marine Pollution Bulletin 86(1-2): 76-83
Sur, B.; De Laurentiis, E.; Minella, M.; Maurino, V.; Minero, C.; Vione, D. 2012: Photochemical transformation of anionic 2-nitro-4-chlorophenol in surface waters: laboratory and model assessment of the degradation kinetics, and comparison with field data. Science of the Total Environment 426: 296-303
Hou, W.-C.; Jafvert, C.T. 2009: Photochemical transformation of aqueous C60 clusters in sunlight. Environmental Science and Technology 43(2): 362-367
Marchetti, G.; Minella, M.; Maurino, V.; Minero, C.; Vione, D. 2013: Photochemical transformation of atrazine and formation of photointermediates under conditions relevant to sunlit surface waters: laboratory measures and modelling. Water Research 47(16): 6211-6222
Qu, X.; Alvarez, P.J.J.; Li, Q. 2013: Photochemical transformation of carboxylated multiwalled carbon nanotubes: role of reactive oxygen species. Environmental Science and Technology 47(24): 14080-14088
Ruggeri, G.; Ghigo, G.; Maurino, V.; Minero, C.; Vione, D. 2013: Photochemical transformation of ibuprofen into harmful 4-isobutylacetophenone: pathways, kinetics, and significance for surface waters. Water Research 47(16): 6109-6121
Fabbri, D.; Minella, M.; Maurino, V.; Minero, C.; Vione, D. 2015: Photochemical transformation of phenylurea herbicides in surface waters: a model assessment of persistence, and implications for the possible generation of hazardous intermediates. Chemosphere 119: 601-607
Yokley, R.A.; Garrison, A.A.; Wehry, E.L.; Mamantov, G. 1986: Photochemical transformation of pyrene and benzo[a]pyrene vapor-deposited on eight coal stack ashes. Environmental Science and Technology 20(1): 86-90
Yang, W.; Ben Abdelmelek, S.; Zheng, Z.; An, T.; Zhang, D.; Song, W. 2013: Photochemical transformation of terbutaline (pharmaceutical) in simulated natural waters: degradation kinetics and mechanisms. Water Research 47(17): 6558-6565
Rao, B.; Wang, W.; Cai, Q.; Anderson, T.; Gu, B. 2013: Photochemical transformation of the insensitive munitions compound 2,4-dinitroanisole. Science of the Total Environment 443: 692-699
Svanfelt, J.; Eriksson, J.; Kronberg, L. 2011: Photochemical transformation of the thyroid hormone levothyroxine in aqueous solution. Environmental Science and Pollution Research International 18(6): 871-876
Su, Y.; Straathof, N.J.W.; Hessel, V.; Noël, T. 2014: Photochemical transformations accelerated in continuous-flow reactors: basic concepts and applications. Chemistry 20(34): 10562-10589
Damiano, T.; Morton, D.; Nelson, A. 2007: Photochemical transformations of pyridinium salts: mechanistic studies and applications in synthesis. Organic and Biomolecular Chemistry 5(17): 2735-2752
Frija, L.ís.M.T.; Ismael, A.; Cristiano, M.L.S. 2010: Photochemical transformations of tetrazole derivatives: applications in organic synthesis. Molecules 15(5): 3757-3774
Matsumura, T.; Yoshimura, Y.; Fujimoto, K. 2007: Photochemical transition of 5-methylcytosine to thymine by DNA photoligation. Nucleic Acids Symposium Series 51: 233-234
Jennings, R.C.; Zucchelli, G.; Santabarbara, S. 2013: Photochemical trapping heterogeneity as a function of wavelength, in plant photosystem i (PSI-LHCI). Biochimica et Biophysica Acta 1827(6): 779-785
Babudri, F.; Bilancia, G.; Cardone, A.; Coppo, P.; De Cola, L.; Farinola, G.M.; Hofstraat, J.W.; Naso, F. 2007: Photochemical tuning of light emission in a conjugated polymer containing norbornadiene units in the main chain. Photochemical and Photobiological Sciences: Official Journal of the European Photochemistry Association and the European Society for Photobiology 6(4): 361-364
Singh, S.; de Tacconi, N.R.; Diaz, N.R.G.; Lezna, R.O.; Muñoz Zuñiga, J.; Abayan, K.; MacDonnell, F.M. 2011: Photochemical two-electron reduction of a dinuclear ruthenium complex containing a bent tetraazatetrapyridopentacene bridging ligand: pushing up the LUMO for storing more energy. Inorganic Chemistry 50(19): 9318-9328
Jesuraj, J.L.; Sivaguru, J. 2010: Photochemical type Ii reaction of atropchiral benzoylformamides to point chiral oxazolidin-4-ones. Axial chiral memory leading to enantiomeric resolution of photoproducts. Chemical Communications 46(26): 4791-4793
Glover, S.D.; Jorge, C.; Liang, L.; Valentine, K.G.; Hammarström, L.; Tommos, C. 2014: Photochemical tyrosine oxidation in the structurally well-defined α3Y protein: proton-coupled electron transfer and a long-lived tyrosine radical. Journal of the American Chemical Society 136(40): 14039-14051
Singh-Rachford, T.N.; Islangulov, R.R.; Castellano, F.N. 2008: Photochemical upconversion approach to broad-band visible light generation. Journal of Physical Chemistry. a 112(17): 3906-3910
Minaev, B.F.; Zakharov, I.I.; Zakharova, O.I.; Tselishtev, A.B.; Filonchook, A.V.; Shevchenko, A.V. 2010: Photochemical water decomposition in the troposphere: DFT study with a symmetrized Kohn-Sham formalism. Chemphyschem: a European Journal of Chemical Physics and Physical Chemistry 11(18): 4028-4034
McGrail, B.T.; Pianowski, L.S.; Burns, P.C. 2014: Photochemical water oxidation and origin of nonaqueous uranyl peroxide complexes. Journal of the American Chemical Society 136(13): 4797-4800
Robinson, D.M.; Go, Y.B.; Mui, M.; Gardner, G.; Zhang, Z.; Mastrogiovanni, D.; Garfunkel, E.; Li, J.; Greenblatt, M.; Dismukes, G.C. 2013: Photochemical water oxidation by crystalline polymorphs of manganese oxides: structural requirements for catalysis. Journal of the American Chemical Society 135(9): 3494-3501
Keirstead, A.E.; Bridgewater, J.W.; Terazono, Y.; Kodis, G.; Straight, S.; Liddell, P.A.; Moore, A.L.; Moore, T.A.; Gust, D. 2010: Photochemical "triode" molecular signal transducer. Journal of the American Chemical Society 132(18): 6588-6595
Li, T.-T.; Zhao, W.-L.; Chen, Y.; Li, F.-M.; Wang, C.-J.; Tian, Y.-H.; Fu, W.-F. 2014: Photochemical, electrochemical, and photoelectrochemical water oxidation catalyzed by water-soluble mononuclear ruthenium complexes. Chemistry 20(43): 13957-13964
Jukes, R.T.F.; Kühni, J.ël.; Salluce, N.; Belser, P.; De Cola, L.; Hartl, F. 2009: Photochemical, photophysical and redox properties of novel fulgimide derivatives with attached 2,2'-bipyridine (bpy) and [M(bpy)(3)](2+) (M = Ru and Os) moieties. Dalton Transactions 20: 3993-4002
Gil-Garcia, M.D.; Martínez-Galera, M.; López-López, T.; Martínez-Vidal, J.L.; Mahedero, M.C.; Salinas, F. 2001: Photochemical-spectrofluorimetric method for the determination of benzoylurea insecticides: applications in river water samples and in technical formulations. Talanta 53(5): 915-925
Holzhauser, C.; Kracher, S.; Rubner, M.M.; Schmucker, W.; Wagenknecht, H-Achim.; Witzgall, R. 2013: Photochemically Active Fluorophore-DNA/RNA Conjugates for Cellular Imaging of Nucleic Acids by Readout in Electron Microscopy. Chemistryopen 2(4): 136-140
Marshall, J.A. 1970: Photochemically Induced Ionic Reactions of Cycloalkenes: Cyclohexenes and cycloheptenes undergo cationic reactions upon ultraviolet irradiation in protic solvents. Science 170(3954): 137-141
McIntosh-Kastrinsky, R.; Diaz-Sanchez, D.; Sexton, K.G.; Jania, C.M.; Zavala, J.; Tilley, S.L.; Jaspers, I.; Gilmour, M.I.; Devlin, R.B.; Cascio, W.E.; Tong, H. 2013: Photochemically altered air pollution mixtures and contractile parameters in isolated murine hearts before and after ischemia. Environmental Health Perspectives 121(11-12): 1344-1348
Gustafson, T.P.; Metzel, G.A.; Kutateladze, A.G. 2011: Photochemically amplified detection of molecular recognition events: an ultra-sensitive fluorescence turn-off binding assay. Organic and Biomolecular Chemistry 9(13): 4752-4755
Balogh, D.; Tel-Vered, R.; Freeman, R.; Willner, I. 2011: Photochemically and electrochemically triggered Au nanoparticles "sponges". Journal of the American Chemical Society 133(17): 6533-6536
Huang, X.; Qi, X.; Huang, Y.; Li, S.; Xue, C.; Gan, C.Lip.; Boey, F.; Zhang, H. 2010: Photochemically controlled synthesis of anisotropic Au nanostructures: platelet-like Au nanorods and six-star Au nanoparticles. Acs Nano 4(10): 6196-6202
Chik, T.K.; Ma, X.Y.; Choy, T.H.; Li, Y.Y.; Diao, H.J.; Teng, W.K.; Han, S.J.; Cheung, K.M.C.; Chan, B.P. 2013: Photochemically crosslinked collagen annulus plug: a potential solution solving the leakage problem of cell-based therapies for disc degeneration. Acta Biomaterialia 9(9): 8128-8139
Sando, L.; Danon, S.; Brownlee, A.G.; McCulloch, R.J.; Ramshaw, J.A.M.; Elvin, C.M.; Werkmeister, J.A. 2011: Photochemically crosslinked matrices of gelatin and fibrinogen promote rapid cell proliferation. Journal of Tissue Engineering and Regenerative Medicine 5(5): 337-346
Sreethawong, T.; Ngamsinlapasathian, S.; Yoshikawa, S. 2014: Photochemically deposited nano-Ag/sol-gel TiO2-In2O3 mixed oxide mesoporous-assembled nanocrystals for photocatalytic dye degradation. Journal of Colloid and Interface Science 421: 191-198
Kassu, A.; Taguenang, J.M.; Sharma, A. 2008: Photochemically deposited surface relief gratings of an azo-dye-labeled phospholipid from the aqueous phase. Optics Letters 33(15): 1656-1658
Di Pietro, M.L.; Puntoriero, F.; Tuyéras, F.; Ochsenbein, P.; Lainé, P.P.; Campagna, S. 2010: Photochemically driven intercalation of small molecules into DNA by in situ irradiation. Chemical Communications 46(28): 5169-5171
Zhu, T.F.; Adamala, K.; Zhang, N.; Szostak, J.W. 2012: Photochemically driven redox chemistry induces protocell membrane pearling and division. Proceedings of the National Academy of Sciences of the United States of America 109(25): 9828-9832
Li, X.-H.; Cai, Y.-Y.; Gong, L.-H.; Fu, W.; Wang, K.-X.; Bao, H.-L.; Wei, X.; Chen, J.-S. 2014: Photochemically engineering the metal-semiconductor interface for room-temperature transfer hydrogenation of nitroarenes with formic acid. Chemistry 20(50): 16732-16737
Daziano, J.-P.; Günther, W.H.H.; Krieg, M.; Tsujino, I.; Miyagi, K.; Anderson, G.S.; Sampson, R.ée.W.; Ostrowski, M.D.; Muir, S.A.; Bula, R.J.; Sieber, F. 2012: Photochemically generated elemental selenium forms conjugates with serum proteins that are preferentially cytotoxic to leukemia and selected solid tumor cells. Photochemistry and Photobiology 88(2): 448-460
Nagase, K.; Kubo, S.; Nakagawa, M. 2012: Photochemically grafted polystyrene layer assisting selective au electrodeposition. Langmuir 28(31): 11646-11653
Liu, X.; Zhao, X.; Wang, X.; Zhang, J.; Huang, Y.; Mo, Q.; Qian, K.; Zhu, Y. 2012: Photochemically inactivated hepatitis B virus promotes upregulation of Th1-type cytokines. Photochemistry and Photobiology 88(5): 1287-1292
Galajda, M.ón.; Lente, G.áb.; Fábián, I.án. 2007: Photochemically induced autocatalysis in the chlorate ion-iodine system. Journal of the American Chemical Society 129(25): 7738-7739
Filáry, A.; Horváth, A.K. 2010: Photochemically induced catalysis of iodide ion and iodine in the tetrathionate-periodate reaction. Physical Chemistry Chemical Physics: Pccp 12(25): 6742-6749
Kuiper, J.M.; Stuart, M.C.A.; Engberts, J.B.F.N. 2008: Photochemically induced disturbance of the alkyl chain packing in vesicular membranes. Langmuir 24(2): 426-432
Farokhcheh, A.; Alizadeh, N. 2014: Photochemically induced fluorescence studies of 1,3-diethyl-1,3-diphenylurea as stabilizer and its quantitative determination. Forensic Science International 240: 35-40
Zhang, D.; Yan, S.; Song, W. 2014: Photochemically induced formation of reactive oxygen species (ROS) from effluent organic matter. Environmental Science and Technology 48(21): 12645-12653
Ota, H.; Matsumura, M.; Miki, N.; Minamitami, H. 2009: Photochemically induced increase in endothelial permeability regulated by RhoA activation. Photochemical and Photobiological Sciences: Official Journal of the European Photochemistry Association and the European Society for Photobiology 8(10): 1401-1407
Schmidt, A.; Hoppen, M.; Strecker, J.-K.; Diederich, K.; Schäbitz, W.-R.üd.; Schilling, M.; Minnerup, J. 2012: Photochemically induced ischemic stroke in rats. Experimental and Translational Stroke Medicine 4(1): 13
Hoshikawa, T.; Kamijo, S.; Inoue, M. 2013: Photochemically induced radical alkynylation of C(sp3)-H bonds. Organic and Biomolecular Chemistry 11(1): 164-169
Kamijo, S.; Hoshikawa, T.; Inoue, M. 2011: Photochemically induced radical transformation of C(sp3)-H bonds to C(sp3)-CN bonds. Organic Letters 13(21): 5928-5931
Margulieux, G.W.; Semproni, S.P.; Chirik, P.J. 2014: Photochemically induced reductive elimination as a route to a zirconocene complex with a strongly activated N₂ ligand. Angewandte Chemie 53(35): 9189-9192
Crowe, S.E.; Kantevari, S.; Ellis-Davies, G.C.R. 2010: Photochemically initiated intracellular astrocytic calcium waves in living mice using two-photon uncaging of IP(3). Acs Chemical Neuroscience 1(8): 575-585
Allpress, C.J.; Arif, A.M.; Houghton, D.T.; Berreau, L.M. 2011: Photochemically initiated oxidative carbon-carbon bond-cleavage reactivity in chlorodiketonate Ni(II) complexes. Chemistry 17(52): 14962-14973
Yan, M. 2007: Photochemically initiated single polymer immobilization. Chemistry 13(15): 4138-4144
Dizman, C.; Demirkol, D.O.; Ates, S.; Torun, L.; Sakarya, S.; Timur, S.; Yagci, Y. 2011: Photochemically prepared polysulfone/poly(ethylene glycol) amphiphilic networks and their biomolecule adsorption properties. Colloids and Surfaces. B Biointerfaces 88(1): 265-270
Sterner, O.; Serrano, Ân.; Mieszkin, S.; Zürcher, S.; Tosatti, S.; Callow, M.E.; Callow, J.A.; Spencer, N.D. 2013: Photochemically prepared, two-component polymer-concentration gradients. Langmuir 29(42): 13031-13041
Gardner, B.M.; Patel, D.; Lewis, W.; Blake, A.J.; Liddle, S.T. 2011: Photochemically promoted bond-cleavage and -capture in a diazomethane derivative of a triamidoamine uranium(IV) complex. Angewandte Chemie 50(44): 10440-10443
Ito, K.; Tamashima, H.; Iwasawa, N.; Kusama, H. 2011: Photochemically promoted transition metal-free cross-coupling of acylsilanes with organoboronic esters. Journal of the American Chemical Society 133(11): 3716-3719
Li, Y.; Li, Q. 2012: Photochemically reversible and thermally stable axially chiral diarylethene switches. Organic Letters 14(17): 4362-4365
Akiyama, H.; Kanazawa, S.; Okuyama, Y.; Yoshida, M.; Kihara, H.; Nagai, H.; Norikane, Y.; Azumi, R. 2014: Photochemically reversible liquefaction and solidification of multiazobenzene sugar-alcohol derivatives and application to reworkable adhesives. Acs Applied Materials and Interfaces 6(10): 7933-7941
Akiyama, H.; Yoshida, M. 2012: Photochemically reversible liquefaction and solidification of single compounds based on a sugar alcohol scaffold with multi azo-arms. Advanced Materials 24(17): 2353-2356
Zhang, L.; Zhu, L. 2008: Photochemically stable fluorescent heteroditopic ligands for zinc ion. Journal of Organic Chemistry 73(21): 8321-8330
Lee, C-Sung.; Na, K. 2014: Photochemically triggered cytosolic drug delivery using pH-responsive hyaluronic acid nanoparticles for light-induced cancer therapy. Biomacromolecules 15(11): 4228-4238
Uda, R.M.; Mori, K.; Sugioka, T. 2011: Photochemically triggered reaction of glucose oxidase in a fused vesicle containing Malachite Green leuconitrile derivative. Colloids and Surfaces. B Biointerfaces 87(2): 510-513
Nandy, S.K.; Agnes, R.S.; Lawrence, D.S. 2007: Photochemically-activated probes of protein-protein interactions. Organic Letters 9(12): 2249-2252
Douvas, A.M.; Kapella, A.; Dimotikali, D.; Argitis, P. 2009: Photochemically-induced acid generation from 18-molybdodiphosphate and 18-tungstodiphosphate within poly(2-hydroxyethyl methacrylate) films. Inorganic Chemistry 48(11): 4896-4907
Grubel, K.; Laughlin, B.J.; Maltais, T.R.; Smith, R.C.; Arif, A.M.; Berreau, L.M. 2011: Photochemically-induced dioxygenase-type CO-release reactivity of group 12 metal flavonolate complexes. Chemical Communications 47(37): 10431-10433
Coly, A.; Aaron, J.J. 1999: Photochemically-induced fluorescence determination of sulfonylurea herbicides using micellar media. Talanta 49(1): 107-117
Adamou, R.; Coly, A.; Abdoulaye, A.; Soumaila, M.; Moussa, I.; Ikhiri, K.; Tine, A. 2011: Photochemically-induced fluorescence dosage of non-fluorescent pyrethroid (Etofenprox) in natural water using a cationic micellar medium. Journal of Fluorescence 21(4): 1409-1415
Diaw, P.A.; Mbaye, O.M.A.; Gaye-Seye, M.D.; Aaron, J.-J.; Coly, A.; Tine, A.; Oturan, N.; Oturan, M.A. 2014: Photochemically-induced fluorescence properties of two benzoyl- and phenylurea pesticides and determination in natural waters. Journal of Fluorescence 24(4): 1319-1330
Zimmerman, H.E. 1976: Photochemistry. Science 193(4254): 670-671
Adamson, A.W. 1979: Photochemistry. Science 203(4383): 881-882
Hecht, S. 1920: Photochemistry of Visual Purple : I. the Kinetics of the Decomposition of Visual Purple by Light. Journal of General Physiology 3(1): 1-13
Hecht, S. 1921: Photochemistry of Visual Purple : Ii. the effect of Temperature on the Bleaching of Visual Purple by Light. Journal of General Physiology 3(3): 285-290
Hecht, S. 1924: Photochemistry of Visual Purple : Iii. the relation between the Intensity of Light and the Rate of Bleaching of Visual Purple. Journal of General Physiology 6(6): 731-740
Conceição, D.S.; Ferreira, D.P.; Ferreira, L.ís.F.V. 2013: Photochemistry and Cytotoxicity Evaluation of Heptamethinecyanine Near Infrared (NIR) Dyes. International Journal of Molecular Sciences 14(9): 18557-18571
Li, Z.; Burya, S.J.; Turro, C.; Dunbar, K.R. 2013: Photochemistry and DNA photocleavage by a new unsupported dirhodium(II,II) complex. Philosophical Transactions. Series A Mathematical Physical and Engineering Sciences 371(1995): 20120128
Mazzoli, A.; Carlotti, B.; Bonaccorso, C.; Fortuna, C.G.; Mazzucato, U.; Miolo, G.; Spalletti, A. 2011: Photochemistry and DNA-affinity of some pyrimidine-substituted styryl-azinium iodides. Photochemical and Photobiological Sciences: Official Journal of the European Photochemistry Association and the European Society for Photobiology 10(11): 1830-1836
Kusuzaki, K.; Takai, T.; Yoshimura, H.; Inoue, K.; Takai, S.; Baldini, N. 2018: Clinical Trial of Radiotherapy After Intravenous Injection of Acridine Orange for Patients with Cancer. Anticancer Research 38(1): 481-489
Wang, M.; Wang, W.R.; Li, M.W.; Chang, X.F.; He, L.L. 2018: Clinical trial of simplified drilling method for dental implant site preparation. Zhonghua Kou Qiang Yi Xue Za Zhi 53(6): 404-407
Kadriu, B.; Yuan, S.; Farmer, C.; Nugent, A.C.; Lener, M.S.; Niciu, M.J.; Park, M.; Yazdian, A.; Ballard, E.D.; Henn, F.A.; Henter, I.D.; Park, L.T.; Zarate, C.A. 2018: Clinical Trial of the Potassium Channel Activator Diazoxide for Major Depressive Disorder Halted Due to Intolerability. Journal of Clinical Psychopharmacology 38(3): 243-246
Ren, Q.; Zhou, Y.-L.; Wang, L.; Chen, Y.-S.; Ma, Y.-N.; Li, P.-P.; Yin, X.-L. 2018: Clinical trial on the effects of thalidomide on hemoglobin synthesis in patients with moderate thalassemia intermedia. Annals of Hematology 97(10): 1933-1939
Shah, A.; Nosheen, E.; Zafar, F.; Uddin, S.N.; Dionysiou, D.D.; Badshah, A.; Zia-ur-Rehman; Khan, G.S. 2012: Photochemistry and electrochemistry of anticancer uracils. Journal of Photochemistry and Photobiology. B Biology 117: 269-277
Chen, J.; Zhang, H.; Tomov, I.V.; Ding, X.; Rentzepis, P.M. 2008: Photochemistry and electron-transfer mechanism of transition metal oxalato complexes excited in the charge transfer band. Proceedings of the National Academy of Sciences of the United States of America 105(40): 15235-15240
Gahlaut, R.; Joshi, H.C.; Joshi, N.K.; Pandey, N.; Pant, S. 2013: Photochemistry and excited state prototropic behaviour of 8-amino 2-naphthol. Spectrochimica Acta. Part a Molecular and Biomolecular Spectroscopy 109: 164-172
Blancafort, Lís. 2014: Photochemistry and photophysics at extended seams of conical intersection. Chemphyschem: a European Journal of Chemical Physics and Physical Chemistry 15(15): 3166-3181
Schneider, J.; Vuong, K.Q.; Calladine, J.A.; Sun, X.-Z.; Whitwood, A.C.; George, M.W.; Perutz, R.N. 2011: Photochemistry and photophysics of a Pd(II) metalloporphyrin: Re(I) tricarbonyl bipyridine molecular dyad and its activity toward the photoreduction of CO2 to CO. Inorganic Chemistry 50(23): 11877-11889
Tadić, J.M.; Moortgat, G.K.; Bera, P.P.; Loewenstein, M.; Yates, E.L.; Lee, T.J. 2012: Photochemistry and photophysics of n-butanal, 3-methylbutanal, and 3,3-dimethylbutanal: experimental and theoretical study. Journal of Physical Chemistry. a 116(24): 5830-5839
Li, Q.; Blancafort, L.ís. 2013: Photochemistry and photophysics of the amino and imino tautomers of 1-methylcytosine: tautomerisation as a side product of the radiationless decay. Photochemical and Photobiological Sciences: Official Journal of the European Photochemistry Association and the European Society for Photobiology 12(8): 1401-1408
Schmidt, R. 2012: Photochemistry and photophysics of the endoperoxide of mesodiphenylhelianthrene: a contribution to the localization of the S1(π*σ*) state of aromatic endoperoxides. Photochemical and Photobiological Sciences: Official Journal of the European Photochemistry Association and the European Society for Photobiology 11(6): 1004-1009
Osawa, M.; Hoshino, M. 2008: Photochemistry and photophysics of the tetrahedral silver(I) complex with diphosphine ligands: [Ag(dppb)2]PF6 (dppb = 1, 2-bis[diphenylphosphino]benzene). Chemical Communications 47: 6384-6386
Baral, S.; Fojtik, A.; Weller, H.; Henglein, A. 1986: Photochemistry and radiation chemistry of colloidal semiconductors. 12. Intermediates of the oxidation of extremely small particles of cadmium sulfide, zinc sulfide, and tricadmium diphosphide and size quantization effects (a pulse radiolysis study). Journal of the American Chemical Society 108(3): 375-378
Lalevée, J.; Morlet-Savary, F.; Dietlin, C.él.; Graff, B.; Fouassier, J.-P. 2014: Photochemistry and radical chemistry under low intensity visible light sources: application to photopolymerization reactions. Molecules 19(9): 15026-15041
Mardyukov, A.; Crespo-Otero, R.; Sanchez-Garcia, E.; Sander, W. 2010: Photochemistry and reactivity of the phenyl radical-water system: a matrix isolation and computational study. Chemistry 16(29): 8679-8689
Corrie, J.E.T.; Munasinghe, V.R.N.; Rudbeck, M.; Barth, A. 2009: Photochemistry and thermal decarboxylation of alpha-phosphoryloxy-p-nitrophenylacetates. Photochemistry and Photobiology 85(5): 1089-1096
Frija, L.ís.M.T.; Reva, I.D.; Gómez-Zavaglia, A.; Cristiano, M.L.S.; Fausto, R. 2007: Photochemistry and vibrational spectra of matrix-isolated 5-ethoxy-1-phenyl-1H-tetrazole. Journal of Physical Chemistry. a 111(15): 2879-2888
Lopes, S.; Nunes, C.áu.M.; Gómez-Zavaglia, A.; Pinho e Melo, T.M.V.D.; Fausto, R. 2011: Photochemistry and vibrational spectra of matrix-isolated methyl 4-chloro-5-phenylisoxazole-3-carboxylate. Journal of Physical Chemistry. a 115(7): 1199-1209
Hönes, R.; Kuss-Petermann, M.; Wenger, O.S. 2013: Photochemistry between a ruthenium(II) pyridylimidazole complex and benzoquinone: simple electron transfer versus proton-coupled electron transfer. Photochemical and Photobiological Sciences: Official Journal of the European Photochemistry Association and the European Society for Photobiology 12(2): 254-261
Easun, T.L.; Jia, J.; Calladine, J.A.; Blackmore, D.L.; Stapleton, C.S.; Vuong, K.Q.; Champness, N.R.; George, M.W. 2014: Photochemistry in a 3D metal-organic framework (MOF): monitoring intermediates and reactivity of the fac-to-mer photoisomerization of Re(diimine)(CO)3Cl incorporated in a MOF. Inorganic Chemistry 53(5): 2606-2612
Valero, R.; Truhlar, D.G. 2012: Photochemistry in a dense manifold of electronic states: photodissociation of CH2ClBr. Journal of Chemical Physics 137(22): 22a539
Carteau, D.; Brunerie, P.; Guillemat, B.; Bassani, D.M. 2007: Photochemistry in everyday life: the effect of spontaneous emulsification on the photochemistry of trans-anethole. Photochemical and Photobiological Sciences: Official Journal of the European Photochemistry Association and the European Society for Photobiology 6(4): 423-430
Chen, J.S.Y.; Euser, T.G.; Farrer, N.J.; Sadler, P.J.; Scharrer, M.; Russell, P.S.J. 2010: Photochemistry in photonic crystal fiber nanoreactors. Chemistry 16(19): 5607-5612
Gladstone, G.R. 1993: Photochemistry in the primitive solar nebula. Science 261(5124): 1058
Clark, I.P.; George, M.W.; Greetham, G.M.; Harvey, E.C.; Long, C.; Manton, J.C.; Pryce, M.T. 2011: Photochemistry of (η(6)-arene)Cr(CO)3 (arene = methylbenzoate, naphthalene, or phenanthrene) in n-heptane solution: population of two excited states following 400 nm excitation as detected by picosecond time-resolved infrared spectroscopy. Journal of Physical Chemistry. a 115(14): 2985-2993
Clark, I.P.; George, M.W.; Greetham, G.M.; Harvey, E.C.; Long, C.; Manton, J.C.; McArdle, H.; Pryce, M.T. 2012: Photochemistry of (η6-anisole)Cr(CO)3 and (η6-thioanisole)Cr(CO)3: evidence for a photoinduced haptotropic shift of the thioanisole ligand, a picosecond time-resolved infrared spectroscopy and density functional theory investigation. Journal of Physical Chemistry. a 116(3): 962-969
Sarma, S.J.; Jones, P.B. 2010: Photochemistry of 1,n-dibenzyloxy-9,10-anthraquinones. Journal of Organic Chemistry 75(11): 3806-3813
Ismael, A.; Serpa, C.; Cristiano, M.L.S. 2013: Photochemistry of 1-allyl-4-aryltetrazolones in solution; structural effects on photoproduct selectivity. Photochemical and Photobiological Sciences: Official Journal of the European Photochemistry Association and the European Society for Photobiology 12(2): 272-283
Brigante, M.; Charbouillot, T.; Vione, D.; Mailhot, G. 2010: Photochemistry of 1-nitronaphthalene: a potential source of singlet oxygen and radical species in atmospheric waters. Journal of Physical Chemistry. a 114(8): 2830-2836
Gavara, R.; Leydet, Y.; Petrov, V.; Pina, F. 2012: Photochemistry of 2-(4-hydroxystyryl)-1-naphthopyrylium. Photochemical and Photobiological Sciences: Official Journal of the European Photochemistry Association and the European Society for Photobiology 11(11): 1691-1699
Sundaresan, A.K.; Jockusch, S.; Turro, N.J. 2011: Photochemistry of 2-diphenylmethoxyacetophenone. Direct detection of a long-lived enol from a Norrish Type Ii photoreaction. Photochemical and Photobiological Sciences: Official Journal of the European Photochemistry Association and the European Society for Photobiology 10(9): 1450-1454
Kubicki, J.; Zhang, Y.; Vyas, S.; Burdzinski, G.; Luk, H.L.; Wang, J.; Xue, J.; Peng, H.-L.; Pritchina, E.A.; Sliwa, M.; Buntinx, G.; Gritsan, N.P.; Hadad, C.M.; Platz, M.S. 2011: Photochemistry of 2-naphthoyl azide. An ultrafast time-resolved UV-vis and IR spectroscopic and computational study. Journal of the American Chemical Society 133(25): 9751-9761
Sebej, P.; Solomek, T.ás.; Hroudná, L.'u.; Brancová, P.; Klán, P. 2009: Photochemistry of 2-nitrobenzylidene acetals. Journal of Organic Chemistry 74(22): 8647-8658
Lei, X.G.; Doubleday, C.E.; Zimmt, M.B.; Turro, N.J. 1986: Photochemistry of 2-phenylcyclanones. Formation of cyclophanes and encapsulation by a ship-in-bottle and by a reptation strategy. Journal of the American Chemical Society 108(9): 2444-2445
Lehnig, R.; Pentlehner, D.; Vdovin, A.; Dick, B.; Slenczka, A. 2009: Photochemistry of 3-hydroxyflavone inside superfluid helium nanodroplets. Journal of Chemical Physics 131(19): 194307
Da Silva, J.é P.; Jockusch, S.; Martinho, J.é M.G.; Ottaviani, M.F.; Turro, N.J. 2010: Photochemistry of 4-chlorophenol and 4-chloroanisole adsorbed on MFi zeolites: supramolecular control of chemoselectivity and reactive intermediate dynamics. Organic Letters 12(13): 3062-3065
Frija, L.M.T.; Khmelinskii, I.V.; Serpa, C.; Reva, I.D.; Fausto, R.; Cristiano, M.L.S. 2008: Photochemistry of 5-allyloxy-tetrazoles: steady-state and laser flash photolysis study. Organic and Biomolecular Chemistry 6(6): 1046-1055
Bridhkoti, J.P.; Mishra, H.; Joshi, H.C.; Pant, S. 2011: Photochemistry of 5-aminoquinoline in protic and aprotic solvents. Spectrochimica Acta. Part a Molecular and Biomolecular Spectroscopy 79(3): 412-417
Komodziński, K.; Lepczyńska, J.; Gdaniec, Z.; Bartolotti, L.; Delley, B.; Franzen, S.; Skalski, B. 2014: Photochemistry of 6-amino-2-azido, 2-amino-6-azido and 2,6-diazido analogues of purine ribonucleosides in aqueous solutions. Photochemical and Photobiological Sciences: Official Journal of the European Photochemistry Association and the European Society for Photobiology 13(3): 563-573
Diniz, A.M.; Gomes, R.; Parola, A.J.; Laia, C.és.A.T.; Pina, F. 2009: Photochemistry of 7-hydroxy-2-(4-hydroxystyryl)-1-benzopyrylium and related compounds. Journal of Physical Chemistry. B 113(3): 719-727
Kikukawa, T.; Shimono, K.; Tamogami, J.; Miyauchi, S.; Kim, S.Y.; Kimura-Someya, T.; Shirouzu, M.; Jung, K.-H.; Yokoyama, S.; Kamo, N. 2011: Photochemistry of Acetabularia rhodopsin Ii from a marine plant, Acetabularia acetabulum. Biochemistry 50(41): 8888-8898
Nakasone, Y.; Zikihara, K.; Tokutomi, S.; Terazima, M. 2013: Photochemistry of Arabidopsis phototropin 1 LOV1: transient tetramerization. Photochemical and Photobiological Sciences: Official Journal of the European Photochemistry Association and the European Society for Photobiology 12(7): 1171-1179
Alexandrova, A.N.; Tully, J.C.; Granucci, G. 2010: Photochemistry of DNA fragments via semiclassical nonadiabatic dynamics. Journal of Physical Chemistry. B 114(37): 12116-12128
Poterya, V.; Fedor, J.; Pysanenko, A.; Tkáč, Ořej.; Lengyel, J.; Ončák, M.; Slavíček, P.; Fárník, M. 2011: Photochemistry of HI on argon and water nanoparticles: hydronium radical generation in HI·(H2O)n. Physical Chemistry Chemical Physics: Pccp 13(6): 2250-2258
Jun, S.; Lee, J.H.; Kim, J.; Kim, J.; Kim, K.H.; Kong, Q.; Kim, T.K.; Lo Russo, M.; Wulff, M.; Ihee, H. 2010: Photochemistry of HgBr(2) in methanol investigated using time-resolved X-ray liquidography. Physical Chemistry Chemical Physics: Pccp 12(37): 11536-11547
Sobolewski, A.L.; Domcke, W. 2005: Photochemistry of Mcl(H2O)4, M = H, Li, Na clusters: finite-size models of the photodetachment of the chloride anion in salt solutions. Physical Chemistry Chemical Physics: Pccp 7(5): 970-974
Desikan, V.; Liu, Y.; Toscano, J.P.; Jenks, W.S. 2008: Photochemistry of N-acetyl-, N-trifluoroacetyl-, N- mesyl-, and N-tosyldibenzothiophene sulfilimines. Journal of Organic Chemistry 73(12): 4398-4414
Crespo-Otero, R.; Mardyukov, A.; Sanchez-Garcia, E.; Barbatti, M.; Sander, W. 2013: Photochemistry of N-methylformamide: matrix isolation and nonadiabatic dynamics. Chemphyschem: a European Journal of Chemical Physics and Physical Chemistry 14(4): 827-836
Welby, C.E.; Armitage, G.K.; Bartley, H.; Wilkinson, A.; Sinopoli, A.; Uppal, B.S.; Rice, C.R.; Elliott, P.I.P. 2014: Photochemistry of RuIi 4,4'-bi-1,2,3-triazolyl (btz) complexes: crystallographic characterization of the photoreactive ligand-loss intermediate trans-[Ru(bpy)(κ2-btz)(κ1-btz)(NCMe)]2+. Chemistry 20(27): 8467-8476
Veetil, A.T.; Solomek, T.áš; Ngoy, B.P.; Pavlíková, N.; Heger, D.; Klán, P. 2011: Photochemistry of S-phenacyl xanthates. Journal of Organic Chemistry 76(20): 8232-8242
Romano, R.M.; Della Védova, C.O.; Beckers, H.; Willner, H. 2009: Photochemistry of SO2/Cl2/O2 gas mixtures: synthesis of the new peroxide ClSO2OOSO2Cl. Inorganic Chemistry 48(5): 1906-1910
Muyskens, K.J.; Alsum, J.R.; Thielke, T.A.; Boer, J.L.; Heetderks, T.R.; Muyskens, M.A. 2012: Photochemistry of UV-excited trifluoroacetylacetone and hexafluoroacetylacetone I: infrared spectra of fluorinated methylfuranones formed by HF photoelimination. Journal of Physical Chemistry. a 116(50): 12305-12313
Zins, E.L.; Krim, L. 2014: Photochemistry of a 1 : 1 hydrogen-bonded CH3CN : HCOOH complex under astrochemically-relevant conditions. Physical Chemistry Chemical Physics: Pccp 16(8): 3388-3398
Carter, B.; Boxer, S.G.; Holten, D.; Kirmaier, C. 2012: Photochemistry of a bacterial photosynthetic reaction center missing the initial bacteriochlorophyll electron acceptor. Journal of Physical Chemistry. B 116(33): 9971-9982
Marquis, Séverine.; Ferrer, Bén.; Alvaro, M.; Garcia, H. 2007: Photochemistry of a chiral salen aluminum complex in nonconventional solvents: use of imidazolium ionic liquids and chiral alcohols. Journal of Physical Chemistry. a 111(27): 6034-6038
Tsai, F.-K.; Fu, H.-Y.; Yang, C.-S.; Chu, L.-K. 2014: Photochemistry of a dual-bacteriorhodopsin system in Haloarcula marismortui: HmbRi and HmbRIi. Journal of Physical Chemistry. B 118(26): 7290-7301
Nakao, Y.; Kikukawa, T.; Shimono, K.; Tamogami, J.; Kimitsuki, N.; Nara, T.; Unno, M.; Ihara, K.; Kamo, N. 2011: Photochemistry of a putative new class of sensory rhodopsin (SRIII) coded by xop2 of Haloarcular marismortui. Journal of Photochemistry and Photobiology. B Biology 102(1): 45-54
Lozada-García, R.R.; Ceponkus, J.; Chevalier, M.èl.; Chin, W.; Mestdagh, J.-M.; Crépin, C. 2012: Photochemistry of acetylacetone isolated in parahydrogen matrices upon 266 nm irradiation. Physical Chemistry Chemical Physics: Pccp 14(10): 3450-3459
Schuttlefield, J.; Rubasinghege, G.; El-Maazawi, M.; Bone, J.; Grassian, V.H. 2008: Photochemistry of adsorbed nitrate. Journal of the American Chemical Society 130(37): 12210-12211
Rubasinghege, G.; Grassian, V.H. 2009: Photochemistry of adsorbed nitrate on aluminum oxide particle surfaces. Journal of Physical Chemistry. a 113(27): 7818-7825
Shemesh, D.; Blair, S.L.; Nizkorodov, S.A.; Gerber, R.B. 2014: Photochemistry of aldehyde clusters: cross-molecular versus unimolecular reaction dynamics. Physical Chemistry Chemical Physics: Pccp 16(43): 23861-23868
Birbaum, F.éd.ér.; Neels, A.; Bochet, C.G. 2008: Photochemistry of allenyl salicylaldehydes. Organic Letters 10(15): 3175-3178
Pérez-Ruiz, R.úl.; Hinze, O.; Neudörfl, J.ör.-M.; Blunk, D.; Görner, H.; Griesbeck, A.G. 2008: Photochemistry of allyloxybenzophenones: a pseudo-Paternò-Büchi rearrangement accompanied by hydrogen transfer induced 1,5-cyclization. Photochemical and Photobiological Sciences: Official Journal of the European Photochemistry Association and the European Society for Photobiology 7(7): 782-788
Fidder, H.; Lauer, A.; Freyer, W.; Koeppe, B.; Heyne, K. 2009: Photochemistry of anthracene-9,10-endoperoxide. Journal of Physical Chemistry. a 113(22): 6289-6296
Hou, W.-C.; Jafvert, C.T. 2009: Photochemistry of aqueous C60 clusters: evidence of 1O2 formation and its role in mediating C60 phototransformation. Environmental Science and Technology 43(14): 5257-5262
Hou, W.-C.; Kong, L.; Wepasnick, K.A.; Zepp, R.G.; Fairbrother, D.H.; Jafvert, C.T. 2010: Photochemistry of aqueous C₆₀ clusters: wavelength dependency and product characterization. Environmental Science and Technology 44(21): 8121-8127
Griffith, E.C.; Carpenter, B.K.; Shoemaker, R.K.; Vaida, V. 2013: Photochemistry of aqueous pyruvic acid. Proceedings of the National Academy of Sciences of the United States of America 110(29): 11714-11719
Zelentsova, E.A.; Sherin, P.S.; Snytnikova, O.A.; Kaptein, R.; Vauthey, E.; Tsentalovich, Y.P. 2013: Photochemistry of aqueous solutions of kynurenic acid and kynurenine yellow. Photochemical and Photobiological Sciences: Official Journal of the European Photochemistry Association and the European Society for Photobiology 12(3): 546-558
Nicolas, M.él.; Ndour, M.; Ka, O.; D'Anna, B.; George, C. 2009: Photochemistry of atmospheric dust: ozone decomposition on illuminated titanium dioxide. Environmental Science and Technology 43(19): 7437-7442
Dandler, J.ör.; Wilhelm, B.; Scheer, H. 2010: Photochemistry of bacteriochlorophylls in human blood plasma: 1. Pigment stability and light-induced modifications of lipoproteins. Photochemistry and Photobiology 86(2): 331-341
Dandler, J.ör.; Wilhelm, B.; Scheer, H. 2010: Photochemistry of bacteriochlorophylls in human blood plasma: 2. Reaction mechanism investigated by product analysis and deuterium isotope effect. Photochemistry and Photobiology 86(2): 342-352
Sebree, J.A.; Kidwell, N.M.; Selby, T.M.; Amberger, B.K.; McMahon, R.J.; Zwier, T.S. 2012: Photochemistry of benzylallene: ring-closing reactions to form naphthalene. Journal of the American Chemical Society 134(2): 1153-1163
Laffon, C.; Lasne, J.; Bournel, F.; Schulte, K.; Lacombe, S.; Parent, P. 2010: Photochemistry of carbon monoxide and methanol in water and nitric acid hydrate ices: a NEXAFS study. Physical Chemistry Chemical Physics: Pccp 12(36): 10865-10870
Guennoun, Z.; Aupetit, C.; Mascetti, J.ël. 2011: Photochemistry of coronene with water at 10 K: first tentative identification by infrared spectroscopy of oxygen containing coronene products. Physical Chemistry Chemical Physics: Pccp 13(16): 7340-7347
Kehrloesser, D.; Baumann, R-Peter.; Kim, H-Cheol.; Hampp, N. 2011: Photochemistry of coumarin-functionalized SiO2 nanoparticles. Langmuir 27(7): 4149-4155
Moiseev, A.G.; Coulais, E.én.; Leigh, W.J. 2009: Photochemistry of cyclic trisilanes: "spring-loaded" precursors to methylphenylsilylene. Chemistry 15(34): 8485-8491
Vignoni, M.; Cabrerizo, F.M.; Lorente, C.; Claparols, C.; Oliveros, E.; Thomas, A.és.H. 2010: Photochemistry of dihydrobiopterin in aqueous solution. Organic and Biomolecular Chemistry 8(4): 800-810
Plyusnin, V.F.; Kolomeets, A.V.; Grivin, V.P.; Larionov, S.V.; Lemmetyinen, H. 2011: Photochemistry of dithiocarbamate Cu(II) complex in CCl4. Journal of Physical Chemistry. a 115(10): 1763-1773
Ayoub, Y.; Asscher, M. 2008: Photochemistry of ethyl chloride caged in amorphous solid water. Physical Chemistry Chemical Physics: Pccp 10(43): 6486-6491
Cottrell, B.A.; Timko, S.A.; Devera, L.; Robinson, A.K.; Gonsior, M.; Vizenor, A.E.; Simpson, A.é J.; Cooper, W.J. 2013: Photochemistry of excited-state species in natural waters: a role for particulate organic matter. Water Research 47(14): 5189-5199
Sato, S.; Matubara, Y.; Koike, K.; Falkenström, M.; Katayama, T.; Ishibashi, Y.; Miyasaka, H.; Taniguchi, S.; Chosrowjan, H.; Mataga, N.; Fukazawa, N.; Koshihara, S.; Onda, K.; Ishitani, O. 2012: Photochemistry of fac-[Re(bpy)(CO)3Cl. Chemistry 18(49): 15722-15734
Wojcik, A.; Nicolaescu, R.; Kamat, P.V.; Chandrasekaran, Y.; Patil, S. 2010: Photochemistry of far red responsive tetrahydroquinoxaline-based squaraine dyes. Journal of Physical Chemistry. a 114(8): 2744-2750
Sisa, M.; Bonnet, S.L.; Ferreira, D.; Van der Westhuizen, J.H. 2010: Photochemistry of flavonoids. Molecules 15(8): 5196-5245
Grote, D.; Sander, W. 2009: Photochemistry of fluorinated 4-iodophenylnitrenes: matrix isolation and spectroscopic characterization of phenylnitrene-4-yls. Journal of Organic Chemistry 74(19): 7370-7382
Golec, B.; Bil, A.; Mielke, Z. 2009: Photochemistry of formaldoxime−nitrous acid complexes in an argon matrix: identification of formaldoxime nitrite. Journal of Physical Chemistry. a 113(34): 9434-9441
Khuseynov, D.; Dixon, A.R.; Dokuchitz, D.J.; Sanov, A. 2014: Photochemistry of fumaronitrile radical anion and its clusters. Journal of Physical Chemistry. a 118(25): 4510-4518
Pharr, C.R.; Kopff, L.A.; Bennett, B.; Reid, S.A.; McMahon, R.J. 2012: Photochemistry of furyl- and thienyldiazomethanes: spectroscopic characterization of triplet 3-thienylcarbene. Journal of the American Chemical Society 134(14): 6443-6454
Chin, W.; Chevalier, M.; Thon, R.; Pollet, R.; Ceponkus, J.; Crépin, C. 2014: Photochemistry of glycolaldehyde in cryogenic matrices. Journal of Chemical Physics 140(22): 224319
Alvaro, M.; Aprile, C.; Ferrer, B.; Sastre, F.; García, H. 2009: Photochemistry of gold nanoparticles functionalized with an iron(II) terpyridine complex. An integrated visible light photocatalyst for hydrogen generation. Dalton Transactions 2009(36): 7437-7444
Fernández, I.; Cossío, F.P.; Sierra, M.A. 2011: Photochemistry of group 6 Fischer carbene complexes: beyond the photocarbonylation reaction. Accounts of Chemical Research 44(7): 479-490
Slavíček, P.; Fárník, M. 2011: Photochemistry of hydrogen bonded heterocycles probed by photodissociation experiments and ab initio methods. Physical Chemistry Chemical Physics: Pccp 13(26): 12123-12137
Ončák, M.; Slavíček, P.; Fárník, M.; Buck, U. 2011: Photochemistry of hydrogen halides on water clusters: simulations of electronic spectra and photodynamics, and comparison with photodissociation experiments. Journal of Physical Chemistry. a 115(23): 6155-6168
Lan, Z.; Frutos, L.M.; Sobolewski, A.L.; Domcke, W. 2008: Photochemistry of hydrogen-bonded aromatic pairs: Quantum dynamical calculations for the pyrrole-pyridine complex. Proceedings of the National Academy of Sciences of the United States of America 105(35): 12707-12712
El-Khoury, P.Z.; Kwok, W.M.; Guan, X.; Ma, C.; Phillips, D.L.; Tarnovsky, A.N. 2009: Photochemistry of iodoform in methanol: formation and fate of the iso-CHI2-i photoproduct. Chemphyschem: a European Journal of Chemical Physics and Physical Chemistry 10(11): 1895-1900
Sugiyama, Y.; Shinohara, Y.; Momotake, A.; Takahashi, K.; Kanna, Y.; Nishimura, Y.; Arai, T. 2010: Photochemistry of linear-shaped phenylacetylenyl- and (phenylacetylenyl)phenylacetylenyl-substituted aromatic enediynes. Journal of Physical Chemistry. a 114(41): 10929-10935
Zeng, X.; Beckers, H.; Willner, H.; Neuhaus, P.; Grote, D.; Sander, W. 2015: Photochemistry of matrix isolated (trifluoromethyl)sulfonyl azide, CF₃SO₂N₃. Journal of Physical Chemistry. a 119(11): 2281-2288
Protti, S.; Mezzetti, A.; Lapouge, C.; Cornard, J.-P. 2008: Photochemistry of metal complexes of 3-hydroxyflavone: towards a better understanding of the influence of solar light on the metal-soil organic matter interactions. Photochemical and Photobiological Sciences: Official Journal of the European Photochemistry Association and the European Society for Photobiology 7(1): 109-119
Nádasdi, R.; Zügner, G.áb.L.; Farkas, M.ár.; Dóbé, S.án.; Maeda, S.; Morokuma, K. 2010: Photochemistry of methyl ethyl ketone: quantum yields and S1/S0-diradical mechanism of photodissociation. Chemphyschem: a European Journal of Chemical Physics and Physical Chemistry 11(18): 3883-3895
Mereshchenko, A.S.; Pal, S.K.; Karabaeva, K.E.; El-Khoury, P.Z.; Tarnovsky, A.N. 2012: Photochemistry of monochloro complexes of copper(II) in methanol probed by ultrafast transient absorption spectroscopy. Journal of Physical Chemistry. a 116(11): 2791-2799
Xing, Y.; Hande, S.M.; Kishi, Y. 2012: Photochemistry of mycolactone A/B, the causative toxin of Buruli ulcer. Journal of the American Chemical Society 134(46): 19234-19239
Malval, J.-P.; Suzuki, S.; Morlet-Savary, F.; Allonas, X.; Fouassier, J.-P.; Takahara, S.; Yamaoka, T. 2008: Photochemistry of naphthalimide photoacid generators. Journal of Physical Chemistry. a 112(17): 3879-3885
Miller, S. 1983: Photochemistry of natural water systems. Environmental Science and Technology 17(12): 568a-570a
Gonzalez, M.M.; Salum, M.L.; Gholipour, Y.; Cabrerizo, F.M.; Erra-Balsells, R. 2009: Photochemistry of norharmane in aqueous solution. Photochemical and Photobiological Sciences: Official Journal of the European Photochemistry Association and the European Society for Photobiology 8(8): 1139-1149
Pollum, M.; Martínez-Fernández, L.; Crespo-Hernández, C.E. 2015: Photochemistry of nucleic acid bases and their thio- and aza-analogues in solution. Topics in Current Chemistry 355: 245-327
Kumar, V.; Lemal, D.M. 2012: Photochemistry of o-fluoranil. Journal of Organic Chemistry 77(11): 5017-5021
Liang, T.Y.; Schuster, G.B. 1986: Photochemistry of p-nitrophenyl azide: single-electron-transfer reaction of the triplet nitrene. Journal of the American Chemical Society 108(3): 546-548
Peláez, D.; Arenas, J.F.; Otero, J.C.; Avila, F.J.; Soto, J. 2008: Photochemistry of protonated nitrosamine: chemical inertia of NH2NOH+ versus reactivity of NH3NO+. Journal of Physical Chemistry. a 112(36): 8394-8402
Guennoun, Z.; Aupetit, C.; Mascetti, J.ël. 2011: Photochemistry of pyrene with water at low temperature: study of atmospherical and astrochemical interest. Journal of Physical Chemistry. a 115(10): 1844-1852
Insińska-Rak, M.łg.; Golczak, A.; Sikorski, M. 2012: Photochemistry of riboflavin derivatives in methanolic solutions. Journal of Physical Chemistry. a 116(4): 1199-1207
Kim, S.; Fujitsuka, M.; Majima, T. 2013: Photochemistry of singlet oxygen sensor green. Journal of Physical Chemistry. B 117(45): 13985-13992
Desikan, V.; Liu, Y.; Toscano, J.P.; Jenks, W.S. 2007: Photochemistry of sulfilimine-based nitrene precursors: generation of both singlet and triplet benzoylnitrene. Journal of Organic Chemistry 72(18): 6848-6859
Credi, A. 2014: Photochemistry of supramolecular systems and nanostructured assemblies. In memory of Professor Nick Turro (1938-2012). Chemical Society reviews 43(12): 4003-4004
Santos, W.G.; Schmitt, C.C.; Neumann, M.G. 2013: Photochemistry of tetraphenyldiboroxane and its use as photopolymerization coinitiator. Photochemistry and Photobiology 89(6): 1362-1367
Pritchina, E.A.; Terpilovskaya, D.S.; Tsentalovich, Y.P.; Platz, M.S.; Gritsan, N.P. 2012: Photochemistry of tetrasulfur tetranitride: laser flash photolysis and quantum chemical study. Inorganic Chemistry 51(8): 4747-4755
Johnston, L.J.; Scaiano, J.C. 1986: Photochemistry of the biradicals derived from the photodecomposition of 2,2,6,6-tetraphenylcyclohexanone. Journal of the American Chemical Society 108(9): 2349-2353
Schmidt, C.M.; Buchbinder, A.M.; Weitz, E.; Geiger, F.M. 2007: Photochemistry of the indoor air pollutant acetone on Degussa P25 TiO2 studied by chemical ionization mass spectrometry. Journal of Physical Chemistry. a 111(50): 13023-13031
Tsuge, M.; Tsuji, K.; Kawai, A.; Shibuya, K. 2013: Photochemistry of the ozone-water complex in cryogenic neon, argon, and krypton matrixes. Journal of Physical Chemistry. a 117(49): 13105-13111
Finlayson, B.J.; Pitts, J.N. 1976: Photochemistry of the polluted troposphere. Science 192(4235): 111-119
Chmura, B.; Lan, Z.; Rode, M.F.; Sobolewski, A.L. 2009: Photochemistry of the water dimer: time-dependent quantum wave-packet description of the dynamics at the S1-S0 conical intersection. Journal of Chemical Physics 131(13): 134307
Yuan, K.; Dixon, R.N.; Yang, X. 2011: Photochemistry of the water molecule: adiabatic versus nonadiabatic dynamics. Accounts of Chemical Research 44(5): 369-378
Ostrowski, A.D.; Absalonson, R.O.; De Leo, M.A.; Wu, G.; Pavlovich, J.G.; Adamson, J.; Azhar, B.; Iretskii, A.V.; Megson, I.L.; Ford, P.C. 2011: Photochemistry of trans-Cr(cyclam)(ONO)2+, a nitric oxide precursor. Inorganic Chemistry 50(10): 4453-4462
Hsu, D.-S.; Chou, Y.-Y.; Tung, Y.-S.; Liao, C.-C. 2010: Photochemistry of tricyclo[5.2.2.0(2,6)]undeca-4,10-dien-8-ones: an efficient general route to substituted linear triquinanes from 2-methoxyphenols. Total synthesis of (+/-)-Delta(9(12))-capnellene. Chemistry 16(10): 3121-3131
Spies, J.R.; Chambers, D.C. 1948: Photochemistry of tryptophan, p-dimethylaminobenzaldehyde and reaction products in sulfuric acid solution. Journal of the American Chemical Society 70(5): 1682-1685
Weingart, O.; Schapiro, I.; Buss, V. 2007: Photochemistry of visual pigment chromophore models by ab initio molecular dynamics. Journal of Physical Chemistry. B 111(14): 3782-3788
Sekharan, S.; Altun, A.; Morokuma, K. 2010: Photochemistry of visual pigment in a G(q) protein-coupled receptor (GPCR)--insights from structural and spectral tuning studies on squid rhodopsin. Chemistry 16(6): 1744-1749
Alvarez-Dorta, D.; León, E.I.; Kennedy, A.R.; Martín, A.; Pérez-Martín, I.és.; Riesco-Fagundo, C.ón.; Suárez, E. 2014: Photochemistry of α-diketones in carbohydrates: anomalous Norrish type Ii photoelimination and Norrish-Yang photocyclization promoted by the internal carbonyl group. Chemistry 20(9): 2663-2671
Hill, E.H.; Evans, D.G.; Whitten, D.G. 2013: Photochemistry of "end-only" oligo-p-phenylene ethynylenes: complexation with sodium dodecyl sulfate reduces solvent accessibility. Langmuir 29(31): 9712-9720
Shi, H.; Roettger, D.C.; East, A.L.L. 2008: Photochemistry studied with ab initio orbital-correlation and state-correlation plots: Classic cyclobutene ring opening, and the reaction of N2 with photoexcited O2. Journal of Computational Chemistry 29(6): 883-891
Bremus-Köbberling, E.; Gillner, A.; Avemaria, F.; Réthoré, C.él.; Bräse, S. 2012: Photochemistry with laser radiation in condensed phase using miniaturized photoreactors. Beilstein Journal of Organic Chemistry 8: 1213-1218
Xu, S.; Sun, F.; Gu, F.; Zuo, Y.; Zhang, L.; Fan, C.; Yang, S.; Li, W. 2014: Photochemistry-based method for the fabrication of SnO(2) monolayer ordered porous films with size-tunable surface pores for direct application in resistive-type gas sensor. Acs Applied Materials and Interfaces 6(2): 1251-1257
Lu, Z.; Chang, Y.C.; Yin, Q.-Z.; Ng, C.Y.; Jackson, W.M. 2014: Photochemistry. Evidence for direct molecular oxygen production in CO₂ photodissociation. Science 346(6205): 61-64
Suits, A.G.; Parker, D.H. 2014: Photochemistry. Hot molecules--off the beaten path. Science 346(6205): 30-31
Feder, B.J. 1981: Photochemistry: role of lasers. Applied Optics 20(15): A148
Filip, A.; Clichici, S.; Daicoviciu, D.; Adriana, M.; Postescu, I.D.; Perde-Schrepler, M.; Olteanu, D. 2009: Photochemoprevention of cutaneous neoplasia through natural products. Experimental Oncology 31(1): 9-15
Olteanu, E.D.; Filip, A.; Clichici, S.; Daicoviciu, D.; Achim, M.; Postescu, I.D.; Bolfa, P.; Bolojan, L.; Vlase, L.; Muresan, A. 2012: Photochemoprotective effect of Calluna vulgaris extract on skin exposed to multiple doses of ultraviolet B in SKH-1 hairless mice. Journal of Environmental Pathology Toxicology and Oncology: Official Organ of the International Society for Environmental Toxicology and Cancer 31(3): 233-243
Siddiqui, R.; Khan, N.A. 2012: Photochemotherapeutic strategies against Acanthamoeba keratitis. Amb Express 2(1): 47
Shenoi, S.D.; Prabhu, S. 2014: Photochemotherapy (PUVA) in psoriasis and vitiligo. Indian Journal of Dermatology Venereology and Leprology 80(6): 497-504
Ridge, C.A.; Moktar, A.; Barry, J.; Murphy, G.M. 2007: Photochemotherapy and methotrexate used to treat generalized cutaneous scleroderma. Journal of the European Academy of Dermatology and Venereology: Jeadv 21(5): 692-693
Fujii, N.; Danno, K.; Tanaka, T. 2010: Photochemotherapy combined with tacalcitol occlusive dressing in the treatment of wide-spread psoriasis vulgaris. Journal of Dermatology 37(8): 743-746
Usmani, N.; Murphy, A.; Veale, D.; Goulden, V.; Goodfield, M. 2008: Photochemotherapy for localized morphoea: effect on clinical and molecular markers. Clinical and Experimental Dermatology 33(6): 698-704
Usmani, N.; Murphy, A.; Veale, D.; Goulden, V.; Goodfield, M. 2010: Photochemotherapy for systemic sclerosis: effect on clinical and molecular markers. Clinical and Experimental Dermatology 35(6): 608-613
Hannani, D.; Merlin, E.; Gabert, F.ço.; Laurin, D.; Deméocq, F.ço.; Chaperot, L.; Kanold, J.; Plumas, J. 2010: Photochemotherapy induces a faster apoptosis of alloreactive activated T cells than of nonalloreactive resting T cells in graft versus host disease. Transplantation 90(11): 1232-1238
Hannani, D.; Gabert, F.ço.; Laurin, D.; Sall, M.; Molens, J.-P.; Hequet, O.; Chaperot, L.; Plumas, J. 2010: Photochemotherapy induces the apoptosis of monocytes without impairing their function. Transplantation 89(5): 492-499
Rumie Vittar, N.B.; Comini, L.; Fernadez, I.M.; Agostini, E.; Nuñez-Montoya, S.; Cabrera, J.L.; Rivarola, V.A. 2014: Photochemotherapy using natural anthraquinones: Rubiadin and Soranjidiol sensitize human cancer cell to die by apoptosis. Photodiagnosis and Photodynamic Therapy 11(2): 182-192
Sun, S.-J.; Zhao, W.-j.; Xiang, Y.; Chen, N.-N.; Sun, F.; Chang, X.-H.; Cheng, Y.-B.; Huang, S.-l. 2013: Photochemotherapy with psoralen and ultraviolet a induced apoptosis of NB4 cells and its effects on caspase-8 and caspase-8 protein expressions. Zhongguo Zhong Xi Yi Jie he Za Zhi Zhongguo Zhongxiyi Jiehe Zazhi 33(4): 502-505