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Section 87

EurekaMag Full Text Articles Chapter 86,718



References:

Bekyarova, E.; Murata, K.; Kaneko, K.; Kasuya, D.; Yudasak, M.; Iijima, S. 2003: Porosity tuning of single-wall carbon nanohorns with gaseous activation. Nanotechnology in Mesostructured Materials, Proceedings of the 3rd International Materials Symposium: 395-398
Zou, M.; Wei, C.; Huang, Z.; Wei, S. 2015: Porosity type analysis and permeability model for micro-trans-pores, meso-macro-pores and cleats of coal samples. Journal of Natural Gas Science and Engineering 27: 776-784
Galina, H.; Kolarz, B.N. 1980: Porosity variation and swelling of styrene-divinylbenzene copolymers. Polymer Bulletin 2(4): 235-239
Sayers, C.M.; den Boer, L.D. 2021: Porosity variation of elastic wave velocities in clean sandstones. Geophysical Prospecting 69(8-9): 1733-1744
Qiu, J.; Khalloufi, S.; Martynenko, A.; Van Dalen, G.; Schutyser, M.; Almeida-Rivera, C. 2015: Porosity, Bulk Density, and Volume Reduction During Drying: Review of Measurement Methods and Coefficient Determinations. Drying Technology 33(14): 1681-1699
Weiler, J.; Wood, J.; Klassen, R.; Maire, .; Berkmortel, R.; Wang, G. 2006: Porosity, Damage Evolution and Fracture in Die-Cast Magnesium Alloy AM60B. Advanced Materials Research 15-17: 455-460
Weiler, J.; Wood, J.; Klassen, R.; Maire, E.; Berkmortel, R.; Wang, G. 2006: Porosity, Damage Evolution and Fracture in Die-Cast Magnesium Alloy AM60B. THERMEC 2006 Supplement: 455-460
Dzukey, G.A.; Yang, K.; Wang, Q.; Zhuang, B.; Hou, W. 2020: Porosity, Hardness, Friction and Wear Performance Analysis of H13 SLM-Formed Samples. Journal of Materials Engineering and Performance 29(8): 4957-4966
Martínez-Barrera, G.; Lopez, A.; Alvarez-castillo, A.; Hernández, F.; Barajas, A.; Deicaza, M.; Castaño, V.M. 2000: Porosity, Microstructure and Thermal Stability of Microwave-cured Polymeric Denture Molds. International Journal of Polymeric Materials 45(1-2): 41-54
Erniati; Tjaronge, M.W.; Zulharnah; Irfan, U.R. 2015: Porosity, Pore Size and Compressive Strength of Self Compacting Concrete Using Sea Water. Procedia Engineering 125: 832-837
Ansón, A.; Jagiello, J.; Parra, J.B.; Sanjuán, M.L.; Benito, A.M.; Maser, W.K.; Martínez, M.T. 2004: Porosity, Surface Area, Surface Energy, and Hydrogen Adsorption in Nanostructured Carbons. The Journal of Physical Chemistry B 108(40): 15820-15826
Ausloos, M.; Laurent, C.; Vanderschueren, H.; Rulmont, A.; Tarte, P. 1988: Porosity, magnetic field, and anisotropy effects on resistivity and thermoelectric power of classical and substituted ceramic oxide superconductors. Physica C: Superconductivity 153-155: 1351-1352
Bai, C.; Ni, T.; Wang, Q.; Li, H.; Colombo, P. 2018: Porosity, mechanical and insulating properties of geopolymer foams using vegetable oil as the stabilizing agent. Journal of the European Ceramic Society 38(2): 799-805
Lothe, A.E.; Emmel, B.; Bergmo, P.; Akervoll, I.; Todorovic, J.; Bhuiyan, M.; Knies, J. 2018: Porosity, permeability and compaction trends for Scandinavian regoliths. Marine and Petroleum Geology 92: 319-331
Hargrove, G.L.; Sawyer, D.T. 1967: Porosity, permeability, gas diffusion, and carrier gas velocity in packed gas chromatographic columns. Analytical Chemistry 39(8): 945-948
Mera, M E.; Mor n, M.; Preiss, D.; Zaj cek, L. 2002: Porosity,  -porosity and measures. Nonlinearity 16(1): 247-255
Shen, Z.; Lin, Y.; Zhang, Y.; Rong, J.; Yu, X.; Zhan, Z. 2019: Porosity-Based Design and Finite-Element Analysis of Self-Lubricating Chromium-Free Passivation Film. JOM 72(2): 658-664
Ding, L.; Gao, H.; Xie, F.; Li, W.; Bai, H.; Li, L. 2017: Porosity-Enhanced Polymers from Hyper-Cross-Linked Polymer Precursors. Macromolecules 50(3): 956-962
Hu, C.; Bai, S.; Gao, L.; Liang, S.; Yang, J.; Cheng, S.; Mi, S.; Qiu, J. 2019: Porosity-Induced High Selectivity for CO2 Electroreduction to CO on Fe-Doped ZIF-Derived Carbon Catalysts. ACS Catalysis 9(12): 11579-11588
Stumpf, F.B.; Lukman, F.J. 1960: Porosity-Measurement Apparatus. American Journal of Physics 28(5): 503-504
Roy, D.M.; Gouda, G.R. 1973: Porosity-Strength Relation in Cementitious Materials with very High Strengths. Journal of the American Ceramic Society 56(10): 549-550
Wang, L.; Wang, M.; Wan, G.; Guo, X.; Xie, X.; Liu, W.; Zhang, Y.; Fan, J.; Hou, X.; Chen, Z. 2020: Porosity-Tunable Structures with "Fossilized" Bubbles. ACS Applied Polymer Materials 2(2): 497-504
Nakamura, D.; Shigetoh, K.; Kimura, T. 2018: Porosity-controlled multilayer Ta C coatings prepared via wet powder process for multi-functional reactor components in Ga N crystal growth system. Ceramics International 44(17): 21284-21288
Phung-Van, P.; Thai, C.H.; Nguyen-Xuan, H.; Abdel Wahab, M. 2019: Porosity-dependent nonlinear transient responses of functionally graded nanoplates using isogeometric analysis. Composites Part B: Engineering 164: 215-225
Gheorghiu, F.; Padurariu, L.; Airimioaei, M.; Curecheriu, L.; Ciomaga, C.; Padurariu, C.; Galassi, C.; Mitoseriu, L. 2016: Porosity-dependent properties of Nb-doped Pb(Zr,Ti)O3ceramics. Journal of the American Ceramic Society 100(2): 647-658
Ebrahimi, F.; Barati, M.R. 2017: Porosity-dependent vibration analysis of piezo-magnetically actuated heterogeneous nanobeams. Mechanical Systems and Signal Processing 93: 445-459
Barati, M.R. 2017: Porosity-dependent vibration and dynamic stability of compositionally gradient nanofilms using nonlocal strain gradient theory. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science 232(17): 3144-3155
Xue, Y.; Lee, C.S.; Bae, J. 2018: Porosity-engineered Hard Carbons Hybridized with Carbon Nanotubes for Electrochemical Capacitors. Bulletin of the Korean Chemical Society 39(10): 1171-1175
Lee, J.M.; Wu, T.; Alston, B.M.; Briggs, M.E.; Hasell, T.; Hu, C.; Cooper, A.I. 2016: Porosity-engineered carbons for supercapacitive energy storage using conjugated microporous polymer precursors. Journal of Materials Chemistry A 4(20): 7665-7673
Kang, Y.; Zhan, X.; He, S.; Liu, T.; Sun, L. 2020: Porosity-grain growth relationships in the laser beam deep penetration welding of 6061 aluminum alloy. Journal of Adhesion Science and Technology 35(13): 1372-1392
Li, Y.; Bi, S.; Liu, F.; Wu, S.; Hu, J.; Wang, L.; Liu, H.; Hu, Y. 2015: Porosity-induced emission: exploring color-controllable fluorescence of porous organic polymers and their chemical sensing applications. Journal of Materials Chemistry C 3(26): 6876-6881
Cui, J.; Xiao, H.; Cao, D.; Ji, Z.; Ma, J. 2015: Porosity-induced relaxation of strains at different depth of nanoporous Ga N studied using the Z-scan of Raman spectroscopy. Journal of Alloys and Compounds 626: 154-157
Cui, J.; Cao, D.; Gao, Q.; Yang, X.; Liu, J.; Ma, J.; Xiao, H. 2017: Porosity-induced weakening of piezoresponse in Ga N layers by means of piezoelectric force microscopy. Materials Letters 208: 31-34
Li, X.; Jiang, Z.; Wang, P.; Song, Y.; Li, Z.; Tang, X.; Li, T.; Zhai, G.; Bao, S.; Xu, C.; Wu, F. 2018: Porosity-preserving mechanisms of marine shale in Lower Cambrian of Sichuan Basin, South China. Journal of Natural Gas Science and Engineering 55: 191-205
Hoff, G.C. 1972: Porosity-strength considerations for cellular concrete. Cement and Concrete Research 2(1): 91-100
Mondal, M.; Das, B.; Howli, P.; Das, N.; Chattopadhyay, K. 2018: Porosity-tuned Ni O nanoflakes: Effect of calcination temperature for high performing supercapacitor application. Journal of Electroanalytical Chemistry 813: 116-126
Saini, S.; Mele, P.; Oyake, T.; Shiomi, J.; Niemelä, J.; Karppinen, M.; Miyazaki, K.; Li, C.; Kawaharamura, T.; Ichinose, A.; Molina-Luna, L. 2019: Porosity-tuned thermal conductivity in thermoelectric Al-doped Zn O thin films grown by mist-chemical vapor deposition. Thin Solid Films 685: 180-185
Consoli, N.C.; da Silva, A.; Barcelos, A.M.; Festugato, L.; Favretto, F. 2019: Porosity/Cement Index Controlling Flexural Tensile Strength of Artificially Cemented Soils in Brazil. Geotechnical and Geological Engineering 38(1): 713-722
Akhter, R.; Li, L.; Edwards, R.; Gale, A. 2003: Porosity/bubble formation mechanism in laser surface enamelling. Applied Surface Science 208-209: 447-452
Waseburn, E.W. 1921: Porosity: I. Purpose of the Investigation Ii. Porosity and the Mechanism of Absorption1. Journal of the American Ceramic Society 4(11): 916-922
Washburn, E.W.; Fooyitt, F.F. 1921: Porosity: Iii. Water as An Absorption Liquid. Journal of the American Ceramic Society 4(12): 961-982
Washburn, E.W.; Bunting, E.N. 1922: Porosity: V. Recommended Procedures for Determining Porosity by Methods of Absorption. Journal of the American Ceramic Society 5(1): 48-56
Washburn, E.W.; Bunting, E.N. 1922: Porosity: Vi. Determination of Porosity by the Method of Gas Expansion. Journal of the American Ceramic Society 5(2): 112-130
Washburn, E.W.; Bunting, E.N. 1922: Porosity: Vii. the Determination of the Porosity of Highly Vitrified Bodies43. Journal of the American Ceramic Society 5(8): 527-537
Pérez-Ramírez, J. 2014: Porosity: the Hegemony of Empty Space in Functional Materials Design. Advanced Functional Materials 24(2): 180-181
Hommel, J.; Coltman, E.; Class, H. 2018: Porosity–Permeability Relations for Evolving Pore Space: a Review with a Focus on (Bio-)geochemically Altered Porous Media. Transport in Porous Media 124(2): 589-629
Bakan, E.; Mack, D.E.; Mauer, G.; Mücke, R.; Vaßen, R. 2015: Porosity–Property Relationships of Plasma‐Sprayed Gd 2 Zr 2 O 7 / YSZ Thermal Barrier Coatings. Journal of the American Ceramic Society 98(8): 2647-2654
Hall, C.; Hamilton, A. 2013: Porosity–density relations in stone and brick materials. Materials and Structures 48(5): 1265-1271
Matusinović, T.; Šipušić, J.; Vrbos, N. 2003: Porosity–strength relation in calcium aluminate cement pastes. Cement and Concrete Research 33(11): 1801-1806
Jauch, U.; Ondracek, G. 1986: Porosität und Thermoschockbeständigkeit Keramischer Werkstoffe. Materialwissenschaft und Werkstofftechnik 17(9): 316-317
Wolkowa, Z.W. 1934: Porositätsbestimmungen von Dispersoiden nach der Eindringungsgeschwindigkeit von Flüssigkeiten. Kolloid-Zeitschrift 67(3): 280-284
Appelt, K.; Nowacki, A. 1966: Porositätsmessungen durch absorption von röntgenstrahlen. Electrochimica Acta 11(2): 137-142
Dück, J.; Zvetanov, E.; Neeße, T. 1999: Porositätsmodell für feinkörnige Filterkuchen. Chemie Ingenieur Technik 71(7): 692-696
Craciun, C. 2013: Porosomes: Current Concepts of the Mechanism of Exocytosis. Acta Endocrinologica (Bucharest) 9(4): 605-612
Jena, B.P. 2018: Porosomes: Supramolecular Structures at the Synaptosome Membrane Involved in Vesicle Docking, Fusion, and Neurotransmitter Release. Neuromethods: 209-225
Bek, J.; Leary, R. 2012: Porostrobus nathorstii (Leary and Mickle) emend. and its spores from the Namurian of Illinois, USA. Bulletin of Geosciences: 45-52
Gao, J.; Deng, J.; Lan, K.; Feng, Y.; Zhang, W.; Wang, H. 2017: Porothermoelastic effect on wellbore stability in transversely isotropic medium subjected to local thermal non-equilibrium. International Journal of Rock Mechanics and Mining Sciences 96: 66-84
Lin, B.; Meng, H.; Pan, J.; Chen, S. 2020: Porothermoelastic response of an oil sand formation subjected to injection and micro-fracturing in horizontal wells. Petroleum Science 17(3): 687-700
Ascenzi, A.; Balistreri, P. 1977: Porotic hyperostosis and the problem of origin of thalassemia in Italy. Journal of Human Evolution 6(7): 595-604
Germanà, F.; Ascenzi, A. 1980: Porotic hyperostosis in Sardinia. Journal of Human Evolution 9(1): 75-78
Md Saad, S.K.; Umar, A.A.; Nguyen, H.Q.; Dee, C.F.; Salleh, M.M.; Oyama, M. 2014: Porous (001)-faceted Zn-doped anatase Ti O2 nanowalls and their heterogeneous photocatalytic characterization. RSC Adv. 4(100): 57054-57063
Chen, G.; Li, C.; Li, H.; Wang, L.; Chen, K.; An, L. 2021: Porous (Ce0.2Zr0.2Ti0.2Sn0.2Ca0.2)O2-δ high-entropy ceramics with both high strength and low thermal conductivity. Journal of the European Ceramic Society 41(16): 309-314
Zhang, Z.; Ji, Y.; Li, J.; Zhu, Y.; Zhong, Z.; Su, F. 2016: Porous (Cu O)x Zn O hollow spheres as efficient Rochow reaction catalysts. CrystEngComm 18(16): 2808-2819
Xiao, S.; Mei, H.; Han, D.; Yuan, W.; Cheng, L. 2018: Porous (Si Cw-Si3N4w)/(Si3N4-Si C) composite with enhanced mechanical performance fabricated by 3D printing. Ceramics International 44(12): 14122-14127
Yang, J.; Cheng, F.; Zhang, X.; Gao, H.; Tao, Z.; Chen, J. 2014: Porous 0.2Li2Mn O3·0.8Li Ni0.5Mn0.5O2nanorods as cathode materials for lithium-ion batteries. J. Mater. Chem. A 2(6): 1636-1640
Boldog, I.; Dušek, M.; Jelínek, T.; Švec, P.; Ramos, F.S.d.O.; Růžička, A.; Bulánek, R. 2018: Porous 10- and 12-vertex (bi)-p-dicarba-closo-boranedicarboxylates of cobalt and their gas adsorptive properties. Microporous and Mesoporous Materials 271: 284-294
Gayraud, P.; Essayem, N.; Védrine, J. 2000: Porous 12-tungstophosphoric alkaline salts for isobutane/butene alkylation influence of protonic density and surface polarity of the HPA: Effects of the supercritical phase. Studies in Surface Science and Catalysis: 2549-2554
Jia, Y.; Zhu, B.; Zhang, K.; Jin, Z.; Sun, B.; Luo, T.; Yu, X.; Kong, L.; Liu, J. 2015: Porous 2-line ferrihydrite/bayerite composites (LFBC): Fluoride removal performance and mechanism. Chemical Engineering Journal 268: 325-336
Liu, S.; Xiao, Q.; Kuroda-sowa, T.; Ning, G.; Munakata, M. 2006: Porous 2D Copper(I) Complex of 1,3-Dicyanobenzene for Anion Exchange and Reversible Incorporation of Guest Molecules. Chinese Journal of Chemistry 24(2): 269-272
Yuan, Y.; Kong, Z.; Qiao, L.; Xu, Z.; Wang, Z.; Teng, X.; Dong, Y.; Liu, X.; Fu, A.; Li, Y.; Li, H. 2021: Porous 3D Architecture of Carbon‐Encapsulated Fe 3 O 4 Nanospheres Anchored on Networks of Carbon Nanotubes as Anodes for Advanced Lithium‐Ion Batteries. ChemElectroChem 8(23): 4480-4489
Liu, Z. 2017: Porous 3D Few-Layer Graphene-Like Carbon for Ultrahigh-Power Supercapacitors. Acta Physico-Chimica Sinica 33(5): 855-856
Zhang, Z.; Yang, W.; Wu, Y.; Yan, G.; Li, L.; Qing, Y.; Lu, X. 2021: Porous 3D Honeycomb Structure Biomass Carbon as a Supercapacitor Electrode Material to Achieve Efficient Energy Storage. Industrial-Engineering Chemistry Research 60(30): 11079-11085
Lim, Y.S.; Lai, C.W.; Abd Hamid, S.B. 2017: Porous 3D carbon decorated Fe3O4 nanocomposite electrode for highly symmetrical supercapacitor performance. RSC Advances 7(37): 23030-23040
Donaldson, L. 2017: Porous 3D graphene that is stronger than steel. Materials Today 20(3): 98-99
Liu, D.; Li, Q.; Hou, J.; Zhao, H. 2018: Porous 3D graphene-based biochar materials with high areal sulfur loading for lithium–sulfur batteries. Sustainable Energy-Fuels 2(10): 2197-2205
Luo, K.; Wang, L.; Wang, Y.; Zhou, S.; Zhang, P.; Li, J. 2020: Porous 3D hydroxyapatite/polyurethane composite scaffold for bone tissue engineering and its in vitro degradation behavior. Ferroelectrics 566(1): 104-115
Luo, K.; Wang, L.; Chen, X.; Zeng, X.; Zhou, S.; Zhang, P.; Li, J. 2021: Porous 3D polyurethane composite scaffolds with incorporation of highly mineralized calcium citrate for bone tissue engineering. International Journal of Polymeric Materials and Polymeric Biomaterials: 1-10
Singu, B.S.; Yoon, K.R. 2016: Porous 3D-β-nickel hydroxide microflowers for electrochemical supercapacitors. Journal of Industrial and Engineering Chemistry 33: 374-380
Zhang, Q.; Gao, Q.; Qian, W.; Zhang, H.; Li, Z.; Tan, Y.; Tian, W. 2018: Porous A-Sn O2 /r GO Nanocomposite via Annealing Treatment with Stable High-Capacity as Anode of Lithium-Ion Battery. ChemistrySelect 3(16): 4303-4309
Xu, Q.; Meng, G.; Han, F. 2018: Porous AAO template-assisted rational synthesis of large-scale 1D hybrid and hierarchically branched nanoarchitectures. Progress in Materials Science 95: 243-285
Semerak, T.S.; von Estorff, O. 2015: Porous Absorber Modeling for Low-Mid Frequency Finite Element Method. Acta Acustica united with Acustica 101(4): 829-841
Cai, F.; Chen, J.; Xu, R. 2006: Porous Acetylene-black Spheres as the Cathode Materials of Dye-sensitized Solar Cells. Chemistry Letters 35(11): 1266-1267
Yuan, Y.; Yi, R.; Sun, Y.; Zeng, J.; Li, J.; Hu, J.; Zhao, Y.; Sun, W.; Zhao, C.; Yang, L.; Zhao, C. 2018: Porous Activated Carbons Derived from Pleurotus eryngii for Supercapacitor Applications. Journal of Nanomaterials 2018: 1-10
Chen, Z.; Liu, K.; Liu, S.; Xia, L.; Fu, J.; Zhang, X.; Zhang, C.; Gao, B. 2017: Porous Active Carbon Layer Modified Graphene for High-performance Supercapacitor. Electrochimica Acta 237: 102-108
Li, Y.; Ding, Y. 2010: Porous Ag Cl/Ag Nanocomposites with Enhanced Visible Light Photocatalytic Properties. The Journal of Physical Chemistry C 114(7): 3175-3179
Yang, Y.; Liao, H.; Tong, Z.; Wang, C. 2015: Porous Ag/polymer composite microspheres for adsorption and catalytic degradation of organic dyes in aqueous solutions. Composites Science and Technology 107: 137-144
Hua, X.; Jin, Y.; Wang, K.; Li, N.; Liu, H.; Chen, M.; Paul, S.; Zhang, Y.; Zhao, X.; Teng, F. 2014: Porous Ag3PO4 microtubes with improved photocatalytic properties. Catalysis Communications 52: 49-52
Inumaru, K.; Nakajima, H.; Ito, T.; Misono, M. 1996: Porous Aggregates of Unidirectionally Oriented (NH4)3PW12O40Microcrystallites: Epitaxial Self-Assembly. Chemistry Letters 25(7): 559-560
Wang, F.; Cheng, S.; Wan, B. 2008: Porous Ag–CGO cermets as anode materials for ITSOFC using CO fuel. Catalysis Communications 9(7): 1595-1599
Narasimharao, K.; Al-Shehri, A.; Al-Thabaiti, S. 2015: Porous Ag–Fe2O3 nanocomposite catalysts for the oxidation of carbon monoxide. Applied Catalysis A: General 505: 431-440
Geyer, T.; Sarradj, E.; Fritzsche, C. 2010: Porous Airfoils: Noise Reduction and Boundary Layer Effects. International Journal of Aeroacoustics 9(6): 787-820
Wang, H.; Liu, X.; Kong, H.; Xin, J.; Gao, P.; Shi, E. 2016: Porous Al N with a Low Dielectric Constant Synthesized Based on the Physical Vapor Transport Principle. Journal of Electronic Materials 45(7): 3263-3267
Chouchene, B.; Chaabane, T.B.; Mozet, K.; Girot, E.; Corbel, S.; Balan, L.; Medjahdi, G.; Schneider, R. 2017: Porous Al-doped Zn O rods with selective adsorption properties. Applied Surface Science 409: 102-110
Cui, J.; Yang, J.; Man, J.; Li, S.; Yin, J.; Ma, L.; He, W.; Sun, J.; Hu, J. 2019: Porous Al/Al2O3 two-phase nanonetwork to improve electrochemical properties of porous C/Si O2 as anode for Li-ion batteries. Electrochimica Acta 300: 470-481
Dong, Y.; Jiang, H.; Chen, A.; Yang, T.; Zou, T.; Xu, D. 2020: Porous Al2O3 ceramics with spontaneously formed pores and enhanced strength prepared by indirect selective laser sintering combined with reaction bonding. Ceramics International 46(10): 15159-15166
Yu, M.; Zhou, K.; Zhang, Y.; Zhang, D. 2014: Porous Al2O3 microspheres prepared by a novel ice-templated spray drying technique. Ceramics International 40(1): 1215-1219
Dong, B.; Yang, M.; Wang, F.; Hao, L.; Xu, X.; Wang, G.; Agathopoulos, S. 2019: Porous Al2O3 plates prepared by combing foaming and gel-tape casting methods for efficient collection of oil from water. Chemical Engineering Journal 370: 658-665
Yun, Y.; Kim, H.; Kim, Y.; Koh, J.; Nam, S. 2011: Porous Al2O3 thick films fabricated by aerosol deposition and low loss Al2O3–Cyanate ester hybrid films by resin infiltration. Current Applied Physics 11(1): S319-S323
Deng, Z.; Tanaka, Y.; Sakka, Y.; Kagawa, Y. 2005: Porous Al2O3/Al catalyst supports fabricated by an Al(OH)3/Al mixture and the effect of agglomerates. Journal of Materials Research 20(3): 672-679
Puri, R.K.; Puri, V. 2003: Porous Al2O3Cladded Chopped and Nonchopped Al2O3Thin Film Waveguides: Effect of Moisture and Leafy Vegetation. Japanese Journal of Applied Physics 42(Part 1, No. 11): 6892-6895
Liu, G.; Zhang, D.; Meggs, C.; Button, T.W. 2010: Porous Al2O3–Zr O2 composites fabricated by an ice template method. Scripta Materialia 62(7): 466-468
Barrios-Bermúdez, N.; Santos-Granados, J.; Calvino-Casilda, V.; Cerpa-Naranjo, A.; Rojas-Cervantes, M.L. 2019: Porous Alkaline-Earth Doped Multiwall Carbon Nanotubes with Base Catalytic Properties. Catalysis Letters 149(8): 2279-2290
Dakskobler, A.; Kocjan, A.; Kosmač, T. 2011: Porous Alumina Ceramics Prepared by the Hydrolysis-Assisted Solidification Method. Journal of the American Ceramic Society 94(5): 1374-1379
Kim, K.; Lefeveure, E.; Châtelet, M.; Cojocaru, C. 2012: Porous Alumina Template based Versatile and Controllable Direct Synthesis of Silicon nanowires. MRS Proceedings 1439: 11-16
Fadli, A.; Sopyan, I. 2010: Porous Alumina through Protein Foaming-Consolidation Method: Effect of Stirring time and Drying Temperature on the Physical Properties. Advanced Materials Research 93-94: 397-400
Liu, J.; Dong, Z.; Miao, X. 2010: Porous Alumina/Zirconia Composite Scaffold with Bioactive Glass 58S33C Coating. Journal of Biomimetics, Biomaterials and Tissue Engineering 6: 87-104
Hassanzadeh Fard, Z.; Islam, S.M.; Kanatzidis, M.G. 2015: Porous Amorphous Chalcogenides as Selective Adsorbents for Heavy Metals. Chemistry of Materials 27(18): 6189-6192
Xing, Y.; Zhang, X.; Liu, D.; Li, W.; Sun, L.; Geng, H.; Zhang, J.; Guan, H.; Wu, X. 2017: Porous Amorphous Co2 P/N,B-Co-doped Carbon Composite as an Improved Anode Material for Sodium-Ion Batteries. ChemElectroChem 4(6): 1395-1401
Zhao, X.; Zhao, J.; He, J.; Li, B.; Zhang, Y.; Hu, J.; Wang, H.; Zhang, D.; Liu, Q. 2020: Porous Anatase Ti O2 Nanocrystal Derived from the Metal–Organic Framework as Electron Transport Material for Carbon-Based Perovskite Solar Cells. ACS Applied Energy Materials 3(7): 6180-6187
Ponnusamy, D.; Madanagurusamy, S. 2015: Porous Anatase Ti O2 Thin Films for NH3 Vapour Sensing. Journal of Electronic Materials 44(12): 4726-4733
Zangooie, S.; Arwin, H. 2000: Porous Anodic 4H-Si C: Thickness Dependent Anisotropy in Pore Propagation and Ellipsometric Characterization. Physica status solidi (a) 182(1): 213-219
Baron-Wiecheć, A.; Skeldon, P.; Ganem, J.J.; Vickridge, I.C.; Thompson, G.E. 2012: Porous Anodic Alumina Growth in Borax Electrolyte. Journal of The Electrochemical Society 159(12): C583-C589
Guo, D.; Fan, L.; Wang, F.; Huang, S.; Zou, X. 2008: Porous Anodic Aluminum Oxide Bragg Stacks as Chemical Sensors. The Journal of Physical Chemistry C 112(46): 17952-17956
Chan, H.; Zhang, Z.; Bachman, M.; Li, G. 2019: Porous Anodic Aluminum Oxide Interposer: Fabrication, Characterization, and Evaluation. ECS Journal of Solid State Science and Technology 8(1): P18-P23
Hussain, M.A.; Irshad, M.; Haq, E.U.; Park, S.; Atif, M.; Hakeem, A.S.; Choi, B.G.; Kim, J.W. 2019: Porous Anodic Aluminum Oxide as an Efficient Support for Ruthenium-Catalyzed Aerobic Oxidation of Alcohols and Amines. Industrial-Engineering Chemistry Research 58(51): 23025-23031
Jung, D.Y.; Metzger, M. 1985: Porous Anodic Films on Aluminum at Low Potentials. Journal of The Electrochemical Society 132(2): 386-387
Ota, T.; Eitsuka, T.; Yoshida, H.; Adachi, N. 2006: Porous Apatite Ceramics Derived from Woods. Advanced Materials Research 11-12: 247-250
Ahmed, A.; Babarao, R.; Huang, R.; Medhekar, N.; Todd, B.D.; Hill, M.R.; Thornton, A.W. 2015: Porous Aromatic Frameworks Impregnated with Lithiated Fullerenes for Natural Gas Purification. The Journal of Physical Chemistry C 119(17): 9347-9354
Sun, D.; Yu, D.; Lin, S.; Wang, Z.; Deng, F.; Zhou, X.; Ma, G.; Lei, Z. 2021: Porous Attapulgite Interfaces with Nanochannels that Enable Dendrite-Free Aqueous Zinc Ion Batteries. ACS Applied Nano Materials 4(11): 11723-11731
Sun, Y.F.; Li, K.X.; Zhang, W.J. 2012: Porous B-Ti O2 Prepared by Sol-Gel Method Using Boric Acid as Boron Source. Advanced Materials Research 496: 146-149
Zhang, H.; Tong, C.; Zhang, Y.; Zhang, Y.; Liu, L. 2015: Porous BN for hydrogen generation and storage. Journal of Materials Chemistry A 3(18): 9632-9637
Liu, D.; Zhang, M.; Xie, W.; Sun, L.; Chen, Y.; Lei, W. 2017: Porous BN/Ti O2 hybrid nanosheets as highly efficient visible-light-driven photocatalysts. Applied Catalysis B: Environmental 207: 72-78
Adachi, N.; Kuwahara, M.; Sia, C.K.; Ota, T. 2009: Porous Ba Ferrite Prepared from Wood Template. Materials 2(4): 1923-1928
Sharma, M.; Singh, V.P.; Singh, S.; Azad, P.; Ilahi, B.; Madhar, N.A. 2018: Porous Ba0.85Ca0.15Zr0.1Ti0.9O3 Ceramics for Pyroelectric Applications. Journal of Electronic Materials 47(8): 4882-4891
Zhang, G.G.; Huang, H.T.; Chan, H.L.W.; Zhou, L.M. 2008: Porous Barium Strontium Titanate-Titania Nanocomposites for Photocatalytic Applications. Advanced Materials Research 47-50: 936-939
Wójcik, A.; Skubiszewska, J.; Gawdzik, B.; Ksieźycki, A. 1982: Porous Bead polyaromatic copolymers containing ester groups. Journal of Chromatography A 245(1): 65-70
Song, L.; Zhang, S.; Wei, Q. 2012: Porous Bi Oi Sonocatalysts: Hydrothermal Synthesis, Characterization, Sonocatalytic, and Kinetic Properties. Industrial-Engineering Chemistry Research 51(3): 1193-1197
Uzumaki, E.; Lambert, C. 2006: Porous Bioceramics (Open Cell Foams) Expanded in Vacuum. Bioceramics 18: 1023-1026
Shi, S.; Ochedi, F.O.; Yu, J.; Liu, Y. 2021: Porous Biochars Derived from Microalgae Pyrolysis for CO2 Adsorption. Energy-Fuels 35(9): 7646-7656
Jadawi, A.; Saiter, J.; Barbe, F.; Negahban, M. 2014: Porous Biodegradable Starch-Based Polymer: Effects of Plasticizers on the Physical Properties. Macromolecular Symposia 340(1): 65-72
Xiao, Z. 2018: Porous Biomass Carbon Derived from Peanut Shells as Electrode Materials with Enhanced Electrochemical Performance for Supercapacitors. International Journal of Electrochemical Science: 5370-5381
Tiwari, P.; Biswas, S.; Verma, R.; Sharma, A.; Dutt Konar, A. 2018: Porous Biomaterials via Side Chain-Side Chain Interactions of Tyrosine Analogue of Pyridine Carboxamides. ChemistrySelect 3(1): 262-272
Sarin, P.; Lee, S.; Apostolov, Z.D.; Kriven, W.M. 2011: Porous Biphasic Calcium Phosphate Scaffolds from Cuttlefish Bone. Journal of the American Ceramic Society 94(8): 2362-2370
Mendonça, F.; Louro, L.; de Campos, J.B.; Prado da Silva, M.H. 2007: Porous Biphasic and Triphasic Bioceramics Scaffolds Produced by Gelcasting. Bioceramics 20: 27-30
Urbanová, V.; Bartoš, M.; Vytřas, K.; Kuhn, A. 2010: Porous Bismuth Film Electrodes for Signal Increase in Anodic Stripping Voltammetry. Electroanalysis 22(13): 1524-1530
Meloni, M. 2020: Porous Bodies: Environmental Biopower and the Politics of Life in Ancient Rome. Theory, Culture-Society 38(3): 91-115
Wilson, S.H. 2019: Porous Borders: Multiracial Migrations and the Law in the U.S.-Mexico Borderlands. Journal of American History 105(4): 1014-1015
Massoth, K.S. 2019: Porous Borders: Multiracial Migrations and the Law in the U.S.–Mexico Borderlands. The Journal of Interdisciplinary History 49(4): 688-691
Wang, J.; Hao, J.; Liu, D.; Qin, S.; Portehault, D.; Li, Y.; Chen, Y.; Lei, W. 2017: Porous Boron Carbon Nitride Nanosheets as Efficient Metal-Free Catalysts for the Oxygen Reduction Reaction in Both Alkaline and Acidic Solutions. ACS Energy Letters 2(2): 306-312
Nakamura, S.; Takagaki, A.; Watanabe, M.; Yamada, K.; Yoshida, M.; Ishihara, T. 2020: Porous Boron Nitride as a Weak Solid Base Catalyst. ChemCatChem 12(23): 6033-6039
Azerad, H. 2011: Porous Boundaries: Texts and Images in Twentieth-Century French Culture. French Studies 65(4): 564-565
Bernstein, A. 2019: Porous Bureaucracy: Legitimating the Administrative State in Taiwan. Law-Social Inquiry 45(1): 28-51
Pöllmann, P.; Künzel, J.; Wawrzinek, K.; Trimis, D.; Franz, M.; Härtel, G. 2001: Porous Burner Technology for Hydrogen Chloride Synthesis. Chemie Ingenieur Technik 73(6): 672-673
Liu, C.; Lin, Z.; Chen, C.; Kirk, D.W.; Xu, Y. 2019: Porous C/Ni composites derived from fluid coke for ultra-wide bandwidth electromagnetic wave absorption performance. Chemical Engineering Journal 366: 415-422
Zhu, X.; Wang, M. 2016: Porous CY carbon: a new semiconducting phase with an sp1–sp2–sp3 bonding network. RSC Advances 6(113): 112035-112039
Rajamathi, R.; Bhojaraj; Nethravathi, C. 2021: Porous Ca O–Mg O Nanostructures for CO2 Capture. ACS Applied Nano Materials 4(10): 10969-10975
Bittner, M.; Helmich, L.; Nietschke, F.; Geppert, B.; Oeckler, O.; Feldhoff, A. 2017: Porous Ca3Co4O9 with enhanced thermoelectric properties derived from Sol–Gel synthesis. Journal of the European Ceramic Society 37(13): 3909-3915
Li, X.; Sun, X.; Li, X.; Fu, Z.; Su, Y.; Xu, G. 2015: Porous Cadmium(II) Anionic Metal–Organic Frameworks Based on Aromatic Tricarboxylate Ligands: Encapsulation of Protonated Flexible Bis(2-methylimidazolyl) Ligands and Proton Conductivity. Crystal Growth-Design 15(9): 4543-4548
Yan, T.T.; Wu, X.P.; Cui, Y.S.; Chen, Q.H.; Yang, Z.D. 2013: Porous Calcium Sulfate/Hydroxyapatite Whiskers Scaffold for Bone Tissue Engineering. Advanced Materials Research 738: 38-41
Cheng Ma; Scott, B.; Pickrell, G.; Anbo Wang, 2010: Porous Capillary Tubing Waveguide for High-Temperature Carbon Monoxide Detection. IEEE Photonics Technology Letters 22(5): 323-325
Kunanusont, N.; Shimoyama, Y. 2020: Porous Carbon Cathode Assisted with Ionogel Binder Fabricated from Supercritical Fluid Technique toward Li–O2/CO2 Battery Application. ACS Applied Energy Materials 3(5): 4421-4431
Xie, Y. 2020: Porous Carbon Derived from Nutshell as Electrode Materials for Supercapacitors. International Journal of Electrochemical Science: 10979-10993
Chen, S. 2019: Porous Carbon Derived from Petals of Yulan Magnolia Doped with Ni and Ni O as Anodes for Lithium Ion Battery. International Journal of Electrochemical Science: 1926-1939
Duan, D. 2019: Porous Carbon Electrode Derived from Waste Wine Industry for Supercapacitors. International Journal of Electrochemical Science: 10198-10212
Chen, C.; Wang, H.; Xiao, Q.; Zhao, M.; Li, Y.; Zhao, G.; Xie, Y.; Chen, X.; Zhu, G. 2019: Porous Carbon Hollow Rod for Supercapacitors with High Energy Density. Industrial-Engineering Chemistry Research 58(48): 22124-22132
Zou, G.; Hou, H.; Zhang, Y.; Huang, Z.; Qiu, X.; Ji, X. 2016: Porous Carbon Induced Anatase Ti O2Nanodots/Carbon Composites for High-Performance Sodium-Ion Batteries. Journal of The Electrochemical Society 163(14): A3117-A3125
Sun, Q. 2019: Porous Carbon Material based on Biomass Prepared by Mg O Template Method and Zn Cl2 Activation Method as Electrode for High Performance Supercapacitor. International Journal of Electrochemical Science: 1-14
Qin, L.; Jia, X.; Yang, Y.; Liu, X. 2016: Porous Carbon Microspheres: An Excellent Support to Prepare Surface Molecularly Imprinted Polymers for Selective Removal of Dibenzothiophene in Fuel Oil. Industrial-Engineering Chemistry Research 55(6): 1710-1719
Cheng, Q.; Zhang, M.; Huang, W.; Wei, P.; Wu, K. 2015: Porous Carbon Modified Electrode as a Highly-sensitive Electrochemical Sensing Platform for Salvianolic Acid B. Electroanalysis 28(1): 235-242
Mao, L.; Shan, C.; Fu, K.; Jin, J.; Yang, S.; Li, G. 2019: Porous Carbon Nanofiber/Carbon Black Composite as Promising Support for Platinum Catalyst to Enhance Oxygen Reduction Reaction in PEMFC. ChemistrySelect 4(35): 10555-10560
Yuan, D.; Huang, X.; Yan, J.; Yu, W.; Meng, H.; Rong, J. 2013: Porous Carbon Nanofibers Derived from Bacterial Cellulose for Sustainable Energy Storage. Science of Advanced Materials 5(11): 1694-1700
Li, C.; Yin, X.; Chen, L.; Li, Q.; Wang, T. 2009: Porous Carbon Nanofibers Derived from Conducting Polymer: Synthesis and Application in Lithium-Ion Batteries with High-Rate Capability. The Journal of Physical Chemistry C 113(30): 13438-13442
Wang, M.; Huang, Z.; Bai, Y.; Kang, F.; Inagaki, M. 2013: Porous Carbon Nanofibers: Preparation and Potential Applications. Current Organic Chemistry 17(13): 1434-1447
Zhao, L.; Bao, X.; Hu, Q.; Wang, B.; Lu, A. 2018: Porous Carbon Nanosheet-Supported Chiral Squaramide for Highly Enantioselective Friedel-Crafts Reaction. ChemCatChem 10(6): 1248-1252
Wang, G.; Liu, L.; Zhang, L.; Fu, X.; Liu, M.; Zhang, Y.; Yu, Y.; Chen, A. 2018: Porous Carbon Nanosheets Prepared from Plastic Wastes for Supercapacitors. Journal of Electronic Materials 47(10): 5816-5824
Shen, Y.; Qu, T.; Xiang, K.; Zhang, Y.; Tian, Z.; Xie, M.; Guo, X. 2017: Porous Carbon Nanosheets with Abundant Oxygen Functionalities Derived from Phoenix Seeds for High-Performance Supercapacitor. ChemistrySelect 2(33): 10704-10708
Bucior, B.J.; Chen, D.; Liu, J.; Johnson, J.K. 2012: Porous Carbon Nanotube Membranes for Separation of H2/CH4 and CO2/CH4 Mixtures. The Journal of Physical Chemistry C 116(49): 25904-25910
Kim, D.; Yun, S.; Chun, S.; Choi, J. 2018: Porous Carbon Networks with Nanosphere-Interconnected Structure via 3-Aminophenol-Formaldehyde Polymerization. Macromolecular Research 26(4): 317-321
Unger, K.K. 1983: Porous Carbon Packings for Liquid Chromatography. Analytical Chemistry 55(3): 361A-375A
Gu, X.; Dai, P.; Li, L.; Li, J.; Li, D.; Zhang, H.; Zhao, X. 2016: Porous Carbon Polyhedrons with High-Level Nitrogen-Doping for High-Performance Sodium-Ion Battery Anodes. ChemistrySelect 1(20): 6442-6447
Liu, G.Y.; Li, Y.N.; Guo, J.M.; Wang, B.S. 2010: Porous Carbon Prepared by a Template-Like Method Using Non-Porous Pumice Mineral as Template. Advanced Materials Research 160-162: 1028-1031
Chen, S.; Wu, J.; Zhou, R.; Zuo, L.; Li, P.; Song, Y.; Wang, L. 2015: Porous Carbon Spheres Doped with Fe3C as an Anode for High-Rate Lithium-ion Batteries. Electrochimica Acta 180: 78-85
Pari, G.; Darmawan, S.; Prihandoko, B. 2014: Porous Carbon Spheres from Hydrothermal Carbonization and KOH Activation on Cassava and Tapioca Flour Raw Material. Procedia Environmental Sciences 20: 342-351
Wu, W.; Wang, M.; Huang, H.; Gu, W.; Yan, C.; Chen, G.; Yin, D.; Jin, H.; Wang, J.; Wang, S. 2021: Porous Carbon Spheres with Ultra-fine Fe2N Active Phase for Efficient Electrocatalytic Oxygen Reduction. Journal of Electronic Materials 50(6): 3078-3083
Zhang, P.; Zhu, H.; Dai, S. 2015: Porous Carbon Supports: Recent Advances with Various Morphologies and Compositions. ChemCatChem 7(18): 2788-2805
Wang, D.; Wang, P.; Lu, B.; Ye, K.; Zhu, K.; Wang, Q.; Yan, J.; Wang, G.; Cao, D. 2021: Porous Carbon Tubes Constructing Freestanding Flexible Electrodes for Symmetric Potassium-Ion Hybrid Capacitors. ACS Applied Energy Materials 4(12): 13593-13604
Li, G.R.; Wang, Q.Q.; Liu, B.H.; Li, Z.P. 2015: Porous Carbon as Anode Catalyst Support to Improve Borohydride Utilization in a Direct Borohydride Fuel Cell. Fuel Cells 15(2): 270-277
Yue-Feng, S.; ; Feng, W.; Ge, Z.; Li-Ying, B.; Shi, C. 2008: Porous Carbon as Template for Synthesis of Li4Ti5O12 and its Lithiation Performance. Acta Physico-Chimica Sinica 24(06): 1002-1006
Du, M. 2018: Porous Carbon doped by different nitrogen sources and its Electrochemical Properties. International Journal of Electrochemical Science: 4401-4410
Ou, J.; Wang, H.; Wang, J.; Wu, S. 2021: Porous Carbon/Se Composite Derived from Pistachio Shell as High-performance Li-Se Battery Cathode. Chemistry Letters 50(10): 1797-1800
Ali, H.; Zaman, S.; Majeed, I.; Kanodarwala, F.K.; Nadeem, M.A.; Stride, J.A.; Nadeem, M.A. 2017: Porous Carbon/r GO Composite: An Ideal Support Material of Highly Efficient Palladium Electrocatalysts for the Formic Acid Oxidation Reaction. ChemElectroChem 4(12): 3126-3133
Wu, Y. 2017: Porous Carbons Derived from Lignite Mixed with Zn2+-Doped Lignin for Electric Double-Layer Capacitor. International Journal of Electrochemical Science: 8132-8147
Yang, P.; Rao, L.; Zhu, W.; Wang, L.; Ma, R.; Chen, F.; Lin, G.; Hu, X. 2020: Porous Carbons Derived from Sustainable Biomass via a Facile One-Step Synthesis Strategy as Efficient CO2 Adsorbents. Industrial-Engineering Chemistry Research 59(13): 6194-6201
Bazargan, A.; Hui, C.W.; McKay, G. 2013: Porous Carbons from Plastic Waste. Porous Carbons – Hyperbranched Polymers – Polymer Solvation: 1-25
Rayman, S.C.; Sikha, G.; Koslowske, M.; Tao, T.; White, R.E. 2019: Porous Cathode Transient one Dimensional Model of a Liquid Tin Anode Solid Oxide Fuel Cell. ECS Transactions 33(39): 123-160
Chin, T.S.; Wu, D.C.; Hung, M.P.; Wang, C.P. 1996: Porous Ca–P–O bio-glassceramics by loose-powder-sintering. Journal of Materials Research 11(4): 962-969
Fan, W.; Wu, C.; Han, P.; Zhou, Y.; Xiao, Y. 2012: Porous Ca–Si-based nanospheres: a potential intra-canal disinfectant-carrier for infected canal treatment. Materials Letters 81: 16-19
Zhang, X.; Yuan, X.; Zhang, Y.; Wei, Q.; Meng, G.; Zhang, L. 2005: Porous Cd S Nanowire Arrays Self-assembled in Anodic Aluminum Oxide Template. Chemistry Letters 34(7): 896-897
Sebastian, P.; Calixto, M. 2000: Porous Cd S:Cd O composite structure formed by screen printing and sintering of Cd S in air. Thin Solid Films 360(1-2): 128-132
Shinde, S.K.; Ghodake, G.S.; Maile, N.C.; Dhaygude, H.D.; Kim, S.; Phule, A.D.; Patel, R.V.; Kim, D.Y.; Fulari, V.J. 2017: Porous Cd Se0.6Te0.4 nanoflowers-nanosphere: facile electrochemical synthesis and excellent for photoelectrochemical cell performance. Ionics 23(9): 2489-2496
Wang, X.; Zhai, Q.; Li, S.; Jiang, Y.; Hu, M. 2015: Porous Cd-carboxylate frameworks tuned by the bulk of linker: Interpenetrated nets, selective CO2 uptakes and high water vapor adsorption. Inorganic Chemistry Communications 61: 200-203
Wang, Y.; Yu, J.; Xu, J. 2018: Porous Cd2+ Supramolecular Network Constructed from 2,3,5,6-Pyridinetetracarboxylhydrazide. Journal of Cluster Science 29(4): 633-639
Kockrick, E.; Krawiec, P.; Petasch, U.; Martin, H.; Herrmann, M.; Kaskel, S. 2007: Porous Ce OX/Si C Nanocomposites Prepared from Reverse Polycarbosilane-Based Microemulsions. Chemistry of Materials 20(1): 77-83
Jiang, J.; Zhang, K.; Chen, X.; Zhao, F.; Xie, T.; Wang, D.; Lin, Y. 2017: Porous Ce-doped Zn O hollow sphere with enhanced photodegradation activity for artificial waste water. Journal of Alloys and Compounds 699: 907-913
Voon, L.K.; Pang, S.C.; Chin, S.F. 2017: Porous Cellulose Beads Fabricated from Regenerated Cellulose as Potential Drug Delivery Carriers. Journal of Chemistry 2017: 1-11
Sengphet, K.; Sato, T.; Fauzi, M.N.A.; Othman, R. 2013: Porous Ceramic Bodies Using Banana Stem Waste as a Pore-Forming Agent. Advanced Materials Research 858: 131-136
Denny, P. 1976: Porous Ceramic Coatings on Metal Substrates as Catalyst Supports. Preparation of Catalysts I - Scientific Bases for the Preparation of Heterogeneous Catalysts, Proceedings of the First International Symposium held at the Solvay Research Centre: 601-614
Sharmiwati, M.; Ahmad, Z.A.; Othman, M.R. 2012: Porous Ceramic Supports Prepared from Porcelain Mixture. Advanced Materials Research 620: 389-394
Harabi, A.; Boudaira, B.; Bouzerara, F.; Foughali, L.; Zenikheri, F.; Guechi, A.; Ghouil, B.; Condom, S. 2015: Porous Ceramic Supports for Membranes Prepared from Kaolin (DD3) and Calcite Mixtures. Acta Physica Polonica A 127(4): 1164-1166
Ghitulica, C.; Andronescu, E.; Nicola, O.; Birsan, M. 2008: Porous Ceramics for High Temperature Filters. Advanced Materials Research 47-50: 960-963
Hazan, Y. 2011: Porous Ceramics, Ceramic/Polymer, and Metal-Doped Ceramic/Polymer Nanocomposites via Freeze Casting of Photo-Curable Colloidal Fluids. Journal of the American Ceramic Society 95(1): 177-187
Turetsky, K.M.; Riddle, T.A. 2017: Porous Chambers, Echoes of Valence and Stereotypes. Social Psychological and Personality Science 9(2): 163-175
Choi, J.Y.; Kim, J.; Furukawa, H.; Chae, H.K. 2006: Porous Chiral Metal Organic Carboxylate Frameworks with a Double-interwoven Sr Si2Topology: M3(TTCA)2·6DMF·7H2O (TTCA = triphenylenetricarboxylate; M = Zn2+, Cd2+). Chemistry Letters 35(9): 1054-1055
King, C.A.; Shamshina, J.L.; Zavgorodnya, O.; Cutfield, T.; Block, L.E.; Rogers, R.D. 2017: Porous Chitin Microbeads for more Sustainable Cosmetics. ACS Sustainable Chemistry-Engineering 5(12): 11660-11667
Lu, G.; Zhu, L.; Kong, L.; Zhang, L.; Gong, Y.; Zhao, N.; Zhang, X. 2006: Porous Chitosan Microcarriers for Large Scale Cultivation of Cells for Tissue Engineering: Fabrication and Evaluation. Tsinghua Science-Technology 11(4): 427-432
Singh, B.K.; Sirohi, R.; Archana, D.; Jain, A.; Dutta, P.K. 2014: Porous Chitosan Scaffolds: a Systematic Study for Choice of Crosslinker and Growth Factor Incorporation. International Journal of Polymeric Materials and Polymeric Biomaterials 64(5): 242-252
Hong, D.; Hwang, Y.K.; Serre, C.; Férey, G.; Chang, J. 2009: Porous Chromium Terephthalate MIL-101 with Coordinatively Unsaturated Sites: Surface Functionalization, Encapsulation, Sorption and Catalysis. Advanced Functional Materials 19(10): 1537-1552
Needell, J.D. 2015: Porous City: a Cultural History of Rio de Janeiro. Hispanic American Historical Review 95(1): 167-168
Zhang, Y.; Huang, J.; Ding, Y. 2016: Porous Co 3 O 4 /Cu O hollow polyhedral nanocages derived from metal-organic frameworks with heterojunctions as efficient photocatalytic water oxidation catalysts. Applied Catalysis B: Environmental 198: 447-456
Zhang, Y.; Lu, Z.; Guo, M.; Bai, Z.; Tang, B. 2016: Porous Co C2O4 Nanorods as High Performance Anode Material for Lithium Ion Batteries. JOM 68(11): 2952-2957
Guan, Q.; Cheng, J.; Li, X.; Ni, W.; Wang, B. 2016: Porous Co F2Spheres Synthesized by a One-Pot Solvothermal Method as High Capacity Cathode Materials for Lithium-Ion Batteries. Chinese Journal of Chemistry 35(1): 48-54
Zhao, S.; Guo, J.; Jiang, F.; Su, Q.; Du, G. 2016: Porous Co Fe2O4 nanowire arrays on carbon cloth as binder-free anodes for flexible lithium-ion batteries. Materials Research Bulletin 79: 22-28
Cheng, J.; Liu, X.; Lu, Y.; Hou, X.; Han, L.; Yan, H.; Xu, J.; Luo, Y. 2016: Porous Co Mn 2 O 4 microspheres as advanced pseudocapacitive materials. Materials Letters 165: 231-234
Zhu, L.; Wen, Z.; Mei, W.; Li, Y.; Ye, Z. 2013: Porous Co O Nanostructure Arrays Converted from Rhombic Co(OH)F and Needle-like Co(CO3)0.5(OH)·0.11H2O and their Electrochemical Properties. The Journal of Physical Chemistry C 117(40): 20465-20473
Deng, W.; Sun, Y.; Su, Q.; Xie, E.; Lan, W. 2014: Porous Co O nanobundles composited with 3D graphene foams for supercapacitors electrodes. Materials Letters 137: 124-127
Ren, X.; Hou, F.; Wang, F.; Zhang, X.; Wang, Q. 2018: Porous Co O-Ce O2 heterostructures as highly active and stable electrocatalysts for water oxidation. International Journal of Hydrogen Energy 43(50): 22529-22537
Yuan, W.; Zhang, J.; Xie, D.; Dong, Z.; Su, Q.; Du, G. 2013: Porous Co O/C polyhedra as anode material for Li-ion batteries. Electrochimica Acta 108: 506-511
Xu, M.; Han, L.; Han, Y.; Yu, Y.; Zhai, J.; Dong, S. 2015: Porous Co P concave polyhedron electrocatalysts synthesized from metal–organic frameworks with enhanced electrochemical properties for hydrogen evolution. Journal of Materials Chemistry A 3(43): 21471-21477
Guo, P.; Wu, Y.; Lau, W.; Liu, H.; Liu, L. 2017: Porous Co P nanosheet arrays grown on nickel foam as an excellent and stable catalyst for hydrogen evolution reaction. International Journal of Hydrogen Energy 42(44): 26995-27003
Gao, L.; Chen, S.; Zhang, H.; Zou, Y.; She, X.; Yang, D.; Zhao, Q.; Zhao, X. 2018: Porous Co P nanostructure electrocatalyst derived from DUT-58 for hydrogen evolution reaction. International Journal of Hydrogen Energy 43(30): 13904-13910
Yao, Y.; Zhu, Y.; Huang, J.; Shen, J.; Li, C. 2018: Porous Co S nanosheets coated by N and S doped carbon shell on graphene foams for free-standing and flexible lithium ion battery anodes: Influence of void spaces, shell and porous nanosheet. Electrochimica Acta 271: 242-251
Tang, Y.; Wu, L.; Xiao, L.; Wen, D.; Guo, Q.; Liang, W. 2018: Porous Co Ti O3 microbars as super rate and long life anodes for sodium ion batteries. Ceramics International 44(15): 18025-18031
Yan, F.; Zong, Y.; Zhao, C.; Tan, G.; Sun, Y.; Li, X.; Ren, Z.; Zheng, X. 2018: Porous Co nanospheres supported on nitrogen-doped graphene as high-efficiency electromagnetic wave absorbers with thin thickness. Journal of Alloys and Compounds 742: 928-936
Zhu, Z.; Chen, C.; Cai, M.; Cai, Y.; Ju, H.; Hu, S.; Zhang, M. 2019: Porous Co-N-C ORR catalysts of high performance synthesized with ZIF-67 templates. Materials Research Bulletin 114: 161-169
Du, N.; Zhang, H.; Chen, B.; Wu, J.; Ma, X.; Liu, Z.; Zhang, Y.; Yang, D.; Huang, X.; Tu, J. 2007: Porous Co3O4 Nanotubes Derived from Co4(CO)12 Clusters on Carbon Nanotube Templates: a Highly Efficient Material for Li-Battery Applications. Advanced Materials 19(24): 4505-4509
Tan, L.; Li, S.; Wu, X.; Li, N.; Liu, Z. 2018: Porous Co3O4 decorated nitrogen-doped graphene electrocatalysts for efficient bioelectricity generation in MFCs. International Journal of Hydrogen Energy 43(22): 10311-10321
Li, G.; Hua, X.; Liu, P.; Xie, Y.; Han, L. 2015: Porous Co3O4 microflowers prepared by thermolysis of metal-organic framework for supercapacitor. Materials Chemistry and Physics 168: 127-131
Shimna, T.; Thomas, J.; Thomas, T.; Thomas, N. 2020: Porous Co3O4 modified carbon paste electrode for the quantification of dopamine. Journal of Applied Electrochemistry 50(11): 1165-1173
Hu, R.; Zhang, H.; Bu, Y.; Zhang, H.; Zhao, B.; Yang, C. 2017: Porous Co3O4 nanofibers surface-modified by reduced graphene oxide as a durable, high-rate anode for lithium ion battery. Electrochimica Acta 228: 241-250
Wang, J.; Du, G.; Zeng, R.; Niu, B.; Chen, Z.; Guo, Z.; Dou, S. 2010: Porous Co3O4 nanoplatelets by self-supported formation as electrode material for lithium-ion batteries. Electrochimica Acta 55(16): 4805-4811
Kang, M.; Zhou, H.; Zhao, N.; Lv, B. 2020: Porous Co3O4 nanoplates as an efficient electromaterial for non-enzymatic glucose sensing. CrystEngComm 22(1): 35-43
Tan, P.; Chen, B.; Xu, H.; Cai, W.; He, W.; Ni, M. 2019: Porous Co3O4 nanoplates as the active material for rechargeable Zn-air batteries with high energy efficiency and cycling stability. Energy 166: 1241-1248
Yuan, M.; Yang, Y.; Nan, C.; Sun, G.; Li, H.; Ma, S. 2018: Porous Co3O4 nanorods anchored on graphene nanosheets as an effective electrocatalysts for aprotic Li-O2 batteries. Applied Surface Science 444: 312-319
Vijayanand, S.; Kannan, R.; Potdar, H.S.; Pillai, V.K.; Joy, P.A. 2013: Porous Co3O4 nanorods as superior electrode material for supercapacitors and rechargeable Li-ion batteries. Journal of Applied Electrochemistry 43(10): 995-1003
Wang, Z.; Yu, K.; Huang, R.; Zhu, Z. 2021: Porous Co3O4 stabilized VS2 nanosheets obtained with a MOF template for the efficient HER. CrystEngComm 23(29): 5097-5105
Guo, M.; Xu, K.; Qu, Y.; Zeng, F.; Yuan, C. 2018: Porous Co3O4/Co S2 nanosheet-assembled hierarchical microspheres as superior electrocatalyst towards oxygen evolution reaction. Electrochimica Acta 268: 10-19
Razmjoo, P.; Sabour, B.; Dalvand, S.; Aghazadeh, M.; Ganjali, M.R. 2014: Porous Co3O4Nanoplates: Electrochemical Synthesis, Characterization and Investigation of Supercapacitive Performance. Journal of The Electrochemical Society 161(5): D293-D300
Zhou, C.; Wu, C.; Lv, H.; Yan, M. 2019: Porous Co9S8 nanotubes with the percolation effect for lightweight and highly efficient electromagnetic wave absorption. Journal of Materials Chemistry C 7(6): 1696-1704
Antonov, B.; Bochev, I.; Mourdjeva, M.; Kinov, P.; Tzvetanov, L.; Sheitanov, I.; Kyurkchiev, S. 2013: Porous Coated Titanium Implants do not Inhibit Mesenchimal Stem Cells Proliferation and Osteogenic Differentiation. Biotechnology-Biotechnological Equipment 27(6): 4290-4293
Qu, Y.; Zhou, W.; Fu, H. 2013: Porous Cobalt Titanate Nanorod: a new Candidate for Visible Light-Driven Photocatalytic Water Oxidation. ChemCatChem 6(1): 265-270
Chen, Z.; Ding, W.F.; Xu, J.H.; Song, C.; Fu, Y.; Yang, C. 2012: Porous Composite-Bonded CBN Grinding Wheel with Alumina Bubbles. Advanced Materials Research 565: 46-51
Ramadhansyah, P.; Mohd Ibrahim, M.Y.; Mohd Rosli, H.; Warid, M.N.M.; Wan Ibrahim, M.H. 2014: Porous Concrete Pavement Containing Nano-Silica: Pre-Review. Advanced Materials Research 911: 454-458
Dey, A.; Konavarapu, S.K.; Sasmal, H.S.; Biradha, K. 2016: Porous Coordination Polymers Containing Pyridine-3,5-Bis(5-azabenzimidazole): Exploration of Water Sorption, Selective Dye Adsorption, and Luminescent Properties. Crystal Growth-Design 16(10): 5976-5984
Shimomura, S.; Bureekaew, S.; Kitagawa, S. 2009: Porous Coordination Polymers Towards Gas Technology. Molecular Networks: 51-86
Shimomura, S.; Bureekaew, S.; Kitagawa, S. 2009: Porous Coordination Polymers Towards Gas Technology. Molecular Networks: 96-106
Tang, F.; Zhao, J.C.; Chen, B. 2018: Porous Coordination Polymers for Heterogeneous Catalysis. Current Organic Chemistry 22(18): 1773-1791
Qin, J.; Ren, L.; Cao, X.; Zhao, Y.; Xu, H.; Liu, W.; Sun, X. 2020: Porous Copper Foam Co-operation with Thiourea for Dendrite-free Lithium Metal Anode. Acta Physico Chimica Sinica 0: 2009020-9020
Tao, H.; Tang, Y.; Zhou, M.; Wang, R.; Wang, K.; Li, H.; Jiang, K. 2020: Porous Copper Sulfide Microflowers Grown In Situ on Commercial Copper Foils as Advanced Binder‐Free Electrodes with High Rate and Long Cycle Life for Sodium‐Ion Batteries. ChemElectroChem 8(1): 157-163
Kawde, A.; Aziz, M.A. 2014: Porous Copper-Modified Graphite Pencil Electrode for the Amperometric Detection of 4-Nitrophenol. Electroanalysis 26(11): 2484-2490
Hasmaliza, M.; Lim, Y.M.; Norfadhilah, I. 2013: Porous Cordierite Synthesized Using Corn Starch. Advanced Materials Research 858: 137-140
Singh, B.; Seddon, B.; Dempsey, E.; Redington, W.; Dickinson, C. 2014: Porous Core-Shell Platinum-Silver Nanocatalyst for the Electrooxidation of Methanol. Electroanalysis 27(1): 135-143
Duan, X.; Han, B.; Sun, G.; Cui, Y. 2019: Porous Corn Stalk Cellulose with Multiple Dithiocarbamate Groups as an Efficient Adsorbent for Pb(II) Removal from Wastewater. Chemistry Letters 48(11): 1300-1303
Dong, J.; Xu, F.; Liu, Z.; Yu, H.; Yan, Y.; Li, Y. 2018: Porous Covalent Organic Gels: Design, Synthesis and Fluoroquinolones Adsorption. ChemistrySelect 3(48): 13624-13628
Oh, S.; Kim, H.; Kwon, Y.; Kim, M.; Cho, E.; Kwon, H. 2016: Porous Co–P foam as an efficient bifunctional electrocatalyst for hydrogen and oxygen evolution reactions. Journal of Materials Chemistry A 4(47): 18272-18277
Wang, S.; Fan, Y.; Chen, M.; Xie, Y.; Wang, D.; Su, C. 2015: Porous Co–P–Pd nanotube arrays for hydrogen generation by catalyzing the hydrolysis of alkaline Na BH4 solution. Journal of Materials Chemistry A 3(16): 8250-8255
Wei, B.; Mei, G.; Liang, H.; Qi, Z.; Zhang, D.; Shen, H.; Wang, Z. 2018: Porous Cr N thin films by selectively etching Cr Cu N for symmetric supercapacitors. Journal of Power Sources 385: 39-44
Bao, W.; Tang, X.; Guo, X.; Choi, S.; Wang, C.; Gogotsi, Y.; Wang, G. 2018: Porous Cryo-Dried MXene for Efficient Capacitive Deionization. Joule 2(4): 778-787
Son, J.; Choi, H.; Kwon, Y. 2000: Porous Crystal Formation from Polyoxometalate Building Blocks:  Single-Crystal Structure of [Al O4Al12(OH)12(H2O)24][Al(OH)6Mo6O18]2((OH)· 29.5H2O. Journal of the American Chemical Society 122(30): 7432-7433
Dagani, R. 2007: Porous Crystalline Organic Frameworks. Chemical-Engineering News Archive 85(22): 32-33
Holmberg, B.A. 2019: Porous Crystalline Organosilica Materials as High Surface Area Support in Proton Exchange Membranes for Fuel Cells. ECS Transactions 2(24): 71-77
Feng, L.; Wang, K.; Yan, T.; Zhou, H. 2020: Porous Crystalline Spherulite Superstructures. Chem 6(2): 460-471
Barrer, R. 1986: Porous Crystals: a Perspective. Studies in Surface Science and Catalysis: 3-11
Lorikyan, M. 2003: Porous Cs i multiwire dielectric detectors. Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment 510(1-2): 150-157
Gong, S.; Xiao, Z.; Li, Z. 2010: Porous Cu Al Mn Shape-Memory Alloys with Controlling Porosity and Pores' Structural Parameter Produced by Sintering-Evaporation Process. Advanced Materials Research 123-125: 1011-1014
Xu, Y.; Jian, J.; Li, F.; Liu, W.; Jia, L.; Wang, H. 2019: Porous Cu Bi2O4 photocathodes with rationally engineered morphology and composition towards high-efficiency photoelectrochemical performance. Journal of Materials Chemistry A 7(38): 21997-22004
Bhardwaj, M.; Patrike, A.; Naphade, R.; Tonda, S.; Gawli, Y.; Ogale, S. 2017: Porous Cu Co2 O4 Nanotubules for Li-Ion Battery Anode. ChemistrySelect 2(10): 2922-2926
Hou, T.; Chen, L.; Xin, Y.; Zhu, W.; Zhang, C.; Zhang, W.; Liang, S.; Wang, L. 2020: Porous Cu Fe for Plasmon-Assisted N2 Photofixation. ACS Energy Letters 5(7): 2444-2451
He, X.; Zhao, Y.; Li, J.; Gao, X.; Jia, J. 2011: Porous Cu O Electrospun Fibers and their Gas Sensing Properties. Sensor Letters 9(1): 294-298
Zhang, X.; Zhang, G.; Wang, S.; Li, S.; Jiao, S. 2018: Porous Cu O microsphere architectures as high-performance cathode materials for aluminum-ion batteries. Journal of Materials Chemistry A 6(7): 3084-3090
Wang, L.; Zhang, K.; Hu, Z.; Duan, W.; Cheng, F.; Chen, J. 2013: Porous Cu O nanowires as the anode of rechargeable Na-ion batteries. Nano Research 7(2): 199-208
Ma, T.; Gao, L.; Liu, Y.; Zhang, L.; Yang, X. 2021: Porous Cu O/Cu2O heterostructured arrays as anode for high-performance sodium-ion batteries. Ionics 27(5): 1995-2003
Wu, N.; Zhao, M.; Zheng, J.; Jiang, C.; Myers, B.; Li, S.; Chyu, M.; Mao, S. X. 2005: Porous Cu O–Zn O nanocomposite for sensing electrode of high-temperature CO solid-state electrochemical sensor. Nanotechnology 16(12): 2878-2881
Liu, X.; Wu, J.; Luo, B.; Zhang, L.; Lai, Y. 2017: Porous Cu foams with oriented pore structure by freeze casting. Materials Letters 205: 249-252
Liu, S.; Qi, X.; Lin, R.; Cheng, X.; Liao, P.; Zhang, J.; Chen, X. 2014: Porous Cu(I) Triazolate Framework and Derived Hybrid Membrane with Exceptionally High Sensing Efficiency for Gaseous Oxygen. Advanced Functional Materials 24(37): 5866-5872
Zhou, Y.; Liu, X.; Wang, K.; Li, J.; Zhang, X.; Jin, X.; Tang, X.; Zhu, X.; Zhang, R.; Jiang, X.; Liu, B. 2019: Porous Cu-Mn-O catalysts fabricated by spray pyrolysis method for efficient CO oxidation. Results in Physics 12: 1893-1900
Akgul, B.; Erden, F.; Ozbay, S. 2021: Porous Cu/Al composites for cost-effective thermal management. Powder Technology 391: 11-19
Amaya, D.M.; Estrada, D.; Hotza, D.; Rodrigues Neto, J.B.; Escobar, J.A. 2017: Porous Cu/YSZ anodes processed by aqueous tape casting for IT-SOFC. Journal of the European Ceramic Society 37(16): 5233-5237
Song, J.; Teymur, B.; Zhou, Y.; Ngaboyamahina, E.; Mitzi, D.B. 2021: Porous Cu2Ba Sn(S,Se)4 Film as a Photocathode Using Non-Toxic Solvent and a Ball-Milling Approach. ACS Applied Energy Materials 4(1): 81-87
Owen, I E. 1950: Porous Cup Electrode Drilling Jig. Analytical Chemistry 22(12): 1581-1582
Ottolini, A.C. 1959: Porous Cup Technique in Determination of Magnesium in Cast Iron. Analytical Chemistry 31(3): 447-449
Basu, M. 2019: Porous Cupric Oxide: Efficient Photocathode for Photoelectrochemical Water Splitting. ChemPhotoChem 3(12): 1254-1262
Walicka, A. 2012: Porous Curvilinear Squeeze Film Bearing with Rough Surfaces Lubricated by a Power-Law Fluid. Journal of Porous Media 15(1): 29-49
Song, G.; Lu, Y.; Zhang, Q.; Wang, F.; Ma, X.; Huang, X.; Zhang, Z. 2014: Porous Cu–BTC silica monoliths as efficient heterogeneous catalysts for the selective oxidation of alkylbenzenes. RSC Adv. 4(57): 30221-30224
Lin, Y.; Wei, W.J. 2020: Porous Cu–Ni-YSZ cermets using CH4 fuel for SOFC. International Journal of Hydrogen Energy 45(46): 24253-24262
Yan, M.; Liu, Y.; Xu, J.; Yang, L.; Zhang, L.; Nie, F.; Huang, S. 2020: Porous Cyclotrimethylenetrinitramine with Reduced Sensitivity Prepared by a Solvation–Desolvation Method. Crystal Growth-Design 20(8): 5387-5394
Maciejewska, M.; Rogulska, M. 2020: Porous DMN-co-GMA copolymers modified with 1-(2-hydroxyethyl)-2-pyrrolidone. Journal of Thermal Analysis and Calorimetry 144(3): 699-711
Yang, S.; Wang, T.; Chen, C.; Lee, H.; Li, H.; Huang, S. 2021: Porous Desiccant Wheel Produced Using Inductively Coupled Plasma Technique. IEEE Transactions on Plasma Science 49(1): 177-181
Chen, Y.; Xiao, M.; Wang, S.; Han, D.; Lu, Y.; Meng, Y. 2012: Porous Diatomite-Immobilized Cu–Ni Bimetallic Nanocatalysts for Direct Synthesis of Dimethyl Carbonate. Journal of Nanomaterials 2012: 1-8
McGahay, V. 2010: Porous Dielectrics in Microelectronic Wiring Applications. Materials 3(1): 536-562
Peng, X.; Huo, K.; Fu, J.; Gao, B.; Wang, L.; Hu, L.; Zhang, X.; Chu, P.K. 2014: Porous Dual-Layered Mo Ox Nanotube Arrays with Highly Conductive Ti N Cores for Supercapacitors. ChemElectroChem 2(4): 512-517
Liu, Q.; Zhao, L.L. 2012: Porous Elastic Filter Material in Water Depth in the Processing of the Application. Advanced Materials Research 482-484: 1068-1072
Vu, A.; Qian, Y.; Stein, A. 2012: Porous Electrode Materials for Lithium-Ion Batteries - how to Prepare them and what Makes them Special. Advanced Energy Materials 2(9): 1056-1085
Wei, Z.; Zhang, Q.; Wang, L.; Peng, M.; Wang, X.; Long, S.; Yang, J. 2013: Porous Electrospun PES/PEG Ultrafine Fibers for the Removal of Endocrine Disruptors. Separation Science and Technology 48(15): 2287-2292
Ishak, S.N.; Teh, P.L.; Du Ngoc, U.L.; Yeoh, C.K. 2016: Porous Epoxy: Effect of Mixing Sequences (ELH versus EHL) Using Toluene as Extraction Medium via Ultrasonic Technique. International Journal of Polymer Science 2016: 1-5
Zhang, C.; Dai, J.; Zhang, P.; Zhang, S.; Zhang, H.; Shen, Y.; Xie, A. 2016: Porous Fe 2 O 3 /Zn O composite derived from MOFs as an anode material for lithium ion batteries. Ceramics International 42(1): 1044-1049
Chen, G.; Liss, K.; Chen, C.; He, Y.; Qu, X.; Cao, P. 2021: Porous Fe Al alloys via powder sintering: Phase transformation, microstructure and aqueous corrosion behavior. Journal of Materials Science-Technology 86: 64-69
Gao, H.; He, Y.; Shen, P.; Zou, J.; Xu, N.; Jiang, Y.; Huang, B.; Liu, C. 2009: Porous Fe Al intermetallics fabricated by elemental powder reactive synthesis. Intermetallics 17(12): 1041-1046
Wu, N.; Xu, D.; Yang, F.; Liu, W.; Liu, J. 2019: Porous Fe Hollow Structures with Optimized Impedance Matching as Highly Efficient, Ultrathin, and Lightweight Electromagnetic Wave Absorbers. Industrial-Engineering Chemistry Research 58(16): 6446-6455
Long, X.; Ma, Z.; Yu, H.; Gao, X.; Pan, X.; Chen, X.; Yang, S.; Yi, Z. 2016: Porous Fe Ni oxide nanosheets as advanced electrochemical catalysts for sustained water oxidation. Journal of Materials Chemistry A 4(39): 14939-14943
Motokura, K.; Ozawa, N.; Sato, R.; Manaka, Y.; Chun, W. 2021: Porous Fe O(OH) Dispersed on Mg‐Al Hydrotalcite Surface for One‐Pot Synthesis of Quinoline Derivatives. ChemCatChem 13(12): 2915-2921
Liu, J.; Li, Y.; Zheng, L.; Tang, R.; Zhou, W.; Gao, J.; Wu, H. 2021: Porous Fe-Co-P nanowire arrays through alkaline etching as self-supported electrodes for efficient hydrogen production. Journal of Solid State Electrochemistry 25(5): 1623-1631
Zhu, G.; Yang, J.; Liu, Y.; Xie, X.; Ji, Z.; Yin, J.; Shen, X. 2016: Porous Fe-Mn-O nanocomposites: Synthesis and supercapacitor electrode application. Progress in Natural Science: Materials International 26(3): 264-270
Wu, Y.; Zhao, S.; Zhao, K.; Tu, T.; Zheng, J.; Chen, J.; Zhou, H.; Chen, D.; Li, S. 2016: Porous Fe-Nx/C hybrid derived from bi-metal organic frameworks as high efficient electrocatalyst for oxygen reduction reaction. Journal of Power Sources 311: 137-143
Glasscock, J.A.; Mikkelsen, L.; Persson, .H.; Pećanac, G.; Malzbender, J.; Blennow, P.; Bozza, F.; Hendriksen, P.V. 2013: Porous Fe21Cr7Al1Mo0.5Y metal supports for oxygen transport membranes: Thermo-mechanical properties, sintering and corrosion behaviour. Solid State Ionics 242: 33-44
Li, J.; Wang, Y.; Xu, W.; Wang, Y.; Zhang, B.; Luo, S.; Zhou, X.; Zhang, C.; Gu, X.; Hu, C. 2019: Porous Fe2O3 nanospheres anchored on activated carbon cloth for high-performance symmetric supercapacitors. Nano Energy 57: 379-387
Sun, M.; Sun, M.; Yang, H.; Song, W.; Nie, Y.; Sun, S. 2017: Porous Fe2O3 nanotubes as advanced anode for high performance lithium ion batteries. Ceramics International 43(1): 363-367
Chen, C.; Duan, F.; Zhao, S.; Wang, W.; Yang, F.; Nuansing, W.; Zhang, B.; Qin, Y.; Knez, M. 2019: Porous Fe2O3 nanotubes with α-γ phase junction for enhanced charge separation and photocatalytic property produced by molecular layer deposition. Applied Catalysis B: Environmental 248: 218-225
Zhang, X.; Han, D.; Hua, Z.; Yang, S. 2016: Porous Fe3O4 and gamma-Fe2O3 foams synthesized in air by sol-gel autocombustion. Journal of Alloys and Compounds 684: 120-124
Geng, H.; Li, S.; Pan, Y.; Yang, Y.; Zheng, J.; Gu, H. 2015: Porous Fe3O4 hollow spheres with chlorine-doped-carbon coating as superior anode materials for lithium ion batteries. RSC Advances 5(65): 52993-52997
Liu, Y.; Wei, R.; Ding, W.; Wang, X.; Song, W.; Sheng, Z.; Dai, J.; Liang, C.; Zhu, X.; Sun, Y. 2019: Porous Fe3O4 thin films by pulsed laser assisted chemical solution deposition at room temperature. Applied Surface Science 478: 408-411
Beg, M.S.; Mohapatra, J.; Pradhan, L.; Patkar, D.; Bahadur, D. 2017: Porous Fe3O4-Si O2 core-shell nanorods as high-performance MRi contrast agent and drug delivery vehicle. Journal of Magnetism and Magnetic Materials 428: 340-347
Li, C.; Ge, Y.; Jiang, X.; Waterhouse, G.I.; Zhang, Z.; Yu, L. 2018: Porous Fe3O4/C microspheres for efficient broadband electromagnetic wave absorption. Ceramics International 44(16): 19171-19183
Chen, Y.; Xiao, G.; Wang, T.; Ouyang, Q.; Qi, L.; Ma, Y.; Gao, P.; Zhu, C.; Cao, M.; Jin, H. 2011: Porous Fe3O4/Carbon Core/Shell Nanorods: Synthesis and Electromagnetic Properties. The Journal of Physical Chemistry C 115(28): 13603-13608
Liu, L.; Zhang, H.; Li, J.; Shen, Y.; Wang, C.; Qiu, L.; Yuan, Y.; Xie, A. 2014: Porous Fe3O4/Cu I/PANi nanosheets with excellent microwave absorption and hydrophobic property. Materials Research Bulletin 53: 58-64
Chen, Y.; Gao, P.; Wang, R.; Zhu, C.; Wang, L.; Cao, M.; Jin, H. 2009: Porous Fe3O4/Sn O2 Core/Shell Nanorods: Synthesis and Electromagnetic Properties. The Journal of Physical Chemistry C 113(23): 10061-10064
Meng, W.; Chen, W.; Zhao, L.; Huang, Y.; Zhu, M.; Huang, Y.; Fu, Y.; Geng, F.; Yu, J.; Chen, X.; Zhi, C. 2014: Porous Fe3O4/carbon composite electrode material prepared from metal-organic framework template and effect of temperature on its capacitance. Nano Energy 8: 133-140
Zhang, N.; Levin, B.D.A.; Yang, Y.; Muller, D.A.; Abruña, H.D. 2018: Porous Fe3O4Nanospheres as Effective Sulfur Hosts for Li-S Batteries. Journal of The Electrochemical Society 165(9): A1656-A1661
Suaste-Gómez, E. 2013: Porous Ferroelectric Ceramic as Gas Sensor Based on Ba Ti O3/Si O2. Ferroelectrics 445(1): 88-95
Li, X.; Sun, X.; Ren, X.; Wu, D.; Kuang, X.; Ma, H.; Yan, T.; Wei, Q. 2018: Porous Fe–N-codoped carbon microspheres: an efficient and durable electrocatalyst for oxygen reduction reaction. Inorganic Chemistry Frontiers 5(9): 2211-2217
Lee, J.M.; Sarawutanukul, S.; Sawangphruk, M.; Horike, S. 2019: Porous Fe–N–C Catalysts for Rechargeable Zinc–Air Batteries from an Iron-Imidazolate Coordination Polymer. ACS Sustainable Chemistry-Engineering 7(4): 4030-4036
Xue, M.; Xiao, W.; Zhang, Z. 2008: Porous Films from Transformation of Polymeric Sphere Arrays. Advanced Materials 20(3): 439-442
Penki, T.R.; Shivakumara, S.; Minakshi, M.; Munichandraiah, N. 2015: Porous Flower-like α-Fe2O3 Nanostructure: a High Performance Anode Material for Lithium-ion Batteries. Electrochimica Acta 167: 330-339
Braos-García, P.; Rodríguez-Castellón, E.; Maireles-Torres, P.; Olivera-Pastor, P.; Jiménez-López, A. 1998: Porous Fluorinated Aluminum and Mixed Gallium/Aluminum Oxide Pillared Tin Phosphate Materials with Acid Properties. The Journal of Physical Chemistry B 102(10): 1672-1678
Lim, W.F.; Hassan, Z.; Ahmed, N.M.; Quah, H.J. 2018: Porous Formation in p-Type Gallium Nitride Films via 50 Hz Operated Alternating Current-Assisted Photo-Electrochemical Etching in Methanol-Sulfuric Acid Solution. Journal of The Electrochemical Society 165(10): H620-H628
Reijnders, J.; Boot, M.; Luijten, C.; de Goey, L.; Frijters, P. 2009: Porous Fuel Air Mixing Enhancing Nozzle (PFAMEN). SAE International Journal of Engines 2(2): 400-410
Gore, C.M.; Lee, K.T.; Yoon, H.S.; Wachsman, E.D. 2013: Porous GDC Scaffold Anodes for Lower Temperature, Hydrocarbon-Fueled Solid Oxide Fuel Cells. ECS Transactions 50(27): 53-62
Bilousov, O.V.; Carvajal, J.J.; Vilalta-Clemente, A.; Ruterana, P.; Díaz, F.; Aguiló, M.; O'Dwyer, C. 2014: Porous Ga N and High-κ Mg O–Ga N MOS Diode Layers Grown in a Single Step on Silicon. Chemistry of Materials 26(2): 1243-1249
Mohd Noor, N.H.; Hassan, Z.; Yam, F. 2014: Porous Ga N for Gas Sensing Application. Advanced Materials Research 1043: 50-56
Zhang, M.; Qin, S.; Peng, H.; Pan, G. 2016: Porous Ga N photoelectrode fabricated by photo-assisted electrochemical etching using ionic liquid as etchant. Materials Letters 182: 363-366
Li, J.; Wang, C.; Shi, J.; Li, P.; Yu, Z.; Zhang, H. 2018: Porous Gd Al O3: Cr3+, Sm3+ drug carrier for real-time long afterglow and magnetic resonance dual-mode imaging. Journal of Luminescence 199: 363-371
Han, D.; Yan, X.; Liu, J. 2019: Porous Gd IIi -Organic Framework as a Dual-Functional Material for Cyanosilylation of Aldehydes and Ablation of Human Liver Cancer Cells. Zeitschrift für anorganische und allgemeine Chemie 645(4): 422-427
Min Park, Y.; Kim, H. 2013: Porous Gd-doped ceria barrier layer on solid oxide fuel cell with Sm0.5Sr0.5Co O3−δ Cathodes. Ceramics International 39(2): 2037-2043
Stancu, I.; Lungu, A.; Dragusin, D.M.; Vasile, E.; Damian, C.; Iovu, H. 2013: Porous Gelatin-Alginate-Polyacrylamide Scaffolds with Interpenetrating Network Structure: Synthesis and Characterization. Soft Materials 11(4): 384-393
Li, H.; Eddaoudi, M.; Richardson, D.A.; Yaghi, O.M. 1998: Porous Germanates:  Synthesis, Structure, and Inclusion Properties of Ge7O14.5F2·[(CH3)2NH2]3(H2O)0.86. Journal of the American Chemical Society 120(33): 8567-8568
MacDonell, H.L.; Williams, J.P. 1961: Porous Glass Chromatography Used for the Characterization of Water-Soluble Inks. Analytical Chemistry 33(11): 1552-1554
Lee, C.C.; Yoshikawa, N.; Taniguchi, S. 2014: Porous Glass Composite as Diesel Particulate Filter and the Microwave Regeneration. Advanced Materials Research 936: 2050-2053
Cuthrell, R.E.; Lagowski, J.J. 1964: Porous Glass as an Adsorbent for Thin Layer Chromatography. Analytical Chemistry 36(12): 2379-2380
MacDonell, H.L.; Noonan, J.M.; Williams, J.P. 1963: Porous Glass as an Adsorption Medium for Gas Chromatography. Analytical Chemistry 35(9): 1253-1255
Pastre, A.; Cristini, O.; Boe, A.; Raulin, K.; Grimbert, B.; Chassagneux, F.; Rolland, N.; Bernard, R. 2016: Porous Gold Films Fabricated by Wet-Chemistry Processes. Journal of Nanomaterials 2016: 1-9
Pourmand, M.; Choudhury, P.K.; Mohammed, M.A. 2021: Porous Gold Nanolayer Coated Halide Metal Perovskite-Based Broadband Metamaterial Absorber in the Visible and Near-IR Regime. IEEE Access 9: 8912-8919
Yin, X.; Teradal, N.L.; Jelinek, R. 2017: Porous Gold Nanotubes for Enhanced Methanol Oxidation Catalysis. ChemistrySelect 2(34): 10961-10964
Schubert, I.; Huck, C.; Kröber, P.; Neubrech, F.; Pucci, A.; Toimil-Molares, M.E.; Trautmann, C.; Vogt, J. 2016: Porous Gold Nanowires: Plasmonic Response and Surface-Enhanced Infrared Absorption. Advanced Optical Materials 4(11): 1838-1845
Brito Neto, J.G.A.; Kondo, K.; Hayase, M. 2019: Porous Gold Structures Built on Silicon Substrates. ECS Transactions 6(8): 223-227
Qi, Z.; Vainio, U.; Kornowski, A.; Ritter, M.; Weller, H.; Jin, H.; Weissmüller, J. 2015: Porous Gold with a Nested‐Network Architecture and Ultrafine Structure. Advanced Functional Materials 25(17): 2530-2536
Kim, H.; Robertson, A.W.; Warner, J.H.; Kim, S.O. 2016: Porous Graphene Layers on Pt Catalyst for Long-Term Stability of Fuel Cell Electrode. ECS Transactions 75(14): 837-840
Mercier, G.; Klechikov, A.; Hedenström, M.; Johnels, D.; Baburin, I.A.; Seifert, G.; Mysyk, R.; Talyzin, A.V. 2015: Porous Graphene Oxide/Diboronic Acid Materials: Structure and Hydrogen Sorption. The Journal of Physical Chemistry C 119(49): 27179-27191
Bantawal, H.; Sethi, M.; Shenoy, U.S.; Bhat, D.K. 2019: Porous Graphene Wrapped Sr Ti O3 Nanocomposite: Sr–C Bond as an Effective Coadjutant for High Performance Photocatalytic Degradation of Methylene Blue. ACS Applied Nano Materials 2(10): 6629-6636
Lv, B.; Zheng, C.; Xu, L.; Zhou, X.; Cao, H.; Liu, Z. 2015: Porous Graphene-Like Materials Prepared from Hollow Carbonaceous Microspheres for Supercapacitors. ChemNanoMat 1(6): 422-429
Chen, Z.; Li, Q.; Chen, X. 2020: Porous Graphene/Polyimide Membrane with a Three-Dimensional Architecture for Rapid and Efficient Solar Desalination via Interfacial Evaporation. ACS Sustainable Chemistry-Engineering 8(36): 13850-13858
Chakravarty, C.; Mandal, B.; Sarkar, P. 2018: Porous Graphene–Fullerene Nanocomposites: a new Composite for Solar Cell and Optoelectronic Applications. The Journal of Physical Chemistry C 122(28): 15835-15842
Jiao, W.; Zhang, Y.; Yu, K.; Zhou, J.; Cao, H.; Lü, J. 2019: Porous Graphitic Biomass Carbons as Sustainable Adsorption and Controlled Release Carriers for Atrazine Fixation. ACS Sustainable Chemistry-Engineering 7(24): 20180-20189
Li, K.; Xie, X.; Zhang, W. 2016: Porous Graphitic Carbon Nitride Derived from Melamine-Ammonium Oxalate Stacking Sheets with Excellent Photocatalytic Hydrogen Evolution Activity. ChemCatChem 8(12): 2128-2135
Chen, X.; Wang, H.; Meng, R.; Chen, M. 2019: Porous Graphitic Carbon Nitride Synthesized via Using Carbon Nanotube as a Novel Recyclable Hard Template for Efficient Visible Light Photocatalytic Organic Pollutant Degradation. ChemistrySelect 4(20): 6123-6129
Srinivasu, K.; Modak, B.; Ghosh, S.K. 2014: Porous Graphitic Carbon Nitride: a Possible Metal-free Photocatalyst for Water Splitting. The Journal of Physical Chemistry C 118(46): 26479-26484
Ciriello, V.; Longo, S.; Chiapponi, L.; Di Federico, V. 2015: Porous Gravity Currents of Non-Newtonian Fluids within Confining Boundaries. Procedia Environmental Sciences 25: 58-65
Queiroz, A.; Santos, J.; Monteiro, F. 2005: Porous HA Scaffolds for Drug Releasing. Bioceramics 17: 407-410
Moskalewicz, T.; Łukaszczyk, A.; Kruk, A.; Kot, M.; Jugowiec, D.; Dubiel, B.; Radziszewska, A. 2017: Porous HA and nanocomposite nc-Ti O2/HA coatings to improve the electrochemical corrosion resistance of the Co-28Cr-5Mo alloy. Materials Chemistry and Physics 199: 144-158
Yu, M.; Zhou, K.; Zhang, F.; Zhang, D. 2014: Porous HA microspheres as drug delivery: Effects of porosity and pore structure on drug loading and in vitro release. Ceramics International 40(8): 12617-12621
Yu, C.; Cui, J.; Wang, Y.; Zheng, H.; Zhang, J.; Shu, X.; Liu, J.; Zhang, Y.; Wu, Y. 2018: Porous HKUST-1 derived Cu O/Cu2O shell wrapped Cu(OH)2 derived Cu O/Cu2O core nanowire arrays for electrochemical nonenzymatic glucose sensors with ultrahigh sensitivity. Applied Surface Science 439: 11-17
Xie, C.; Song, J.; Zhou, B.; Hu, J.; Zhang, Z.; Zhang, P.; Jiang, Z.; Han, B. 2016: Porous Hafnium Phosphonate: Novel Heterogeneous Catalyst for Conversion of Levulinic Acid and Esters into γ-Valerolactone. ACS Sustainable Chemistry-Engineering 4(11): 6231-6236
Zhang, S.; Li, Y.; Li, M. 2018: Porous Hard Carbon Derived from Walnut Shell as an Anode Material for Sodium-Ion Batteries. JOM 70(8): 1387-1391
Liu, Q.; Chen, C.; Du, M.; Wu, Y.; Ren, C.; Ding, K.; Song, M.; Huang, C. 2018: Porous Hexagonal Boron Nitride Sheets: Effect of Hydroxyl and Secondary Amino Groups on Photocatalytic Hydrogen Evolution. ACS Applied Nano Materials 1(9): 4566-4575
Liu, J.; Luo, T.; Meng, F.; Qian, K.; Wan, Y.; Liu, J. 2010: Porous Hierarchical In2O3Micro-/Nanostructures: Preparation, Formation Mechanism, and their Application in Gas Sensors for Noxious Volatile Organic Compound Detection. The Journal of Physical Chemistry C 114(11): 4887-4894
Yue, H.; Wang, Q.; Shi, Z.; Ma, C.; Ding, Y.; Huo, N.; Zhang, J.; Yang, S. 2015: Porous Hierarchical Nitrogen-doped Carbon Coated Zn Fe2O4 Composites as High Performance Anode Materials for Lithium Ion Batteries. Electrochimica Acta 180: 622-628
Jia, Z.; Lu, W.; Wang, Y.; Liang, Y.; Li, Y.; Feng, S. 2015: Porous Hierarchical Structure Ni(OH)2 Nanosheet Array Electrode with Excellent Electrochemical Energy Storage Performance. Electrochimica Acta 159: 35-39
Yu, X.; Luo, T.; Jia, Y.; Zhang, Y.; Liu, J.; Huang, X. 2011: Porous Hierarchically Micro-/Nanostructured Mg O: Morphology Control and their Excellent Performance in As(III) and As(V) Removal. The Journal of Physical Chemistry C 115(45): 22242-22250
Asset, T.; Job, N.; Busby, Y.; Crisci, A.; Martin, V.; Stergiopoulos, V.; Bonnaud, C.; Serov, A.; Atanassov, P.; Chattot, R.; Dubau, L.; Maillard, F. 2018: Porous Hollow Pt Ni/C Electrocatalysts: Carbon Support Considerations to Meet Performance and Stability Requirements. ACS Catalysis 8(2): 893-903
Su, W. 2018: Porous Honeycomb-like Carbon Prepared by a Facile Sugar- Blowing Method for High-Performance Lithium-Sulfur Batteries. International Journal of Electrochemical Science: 6005-6014
Papadimitropoulos, G.; Vasilopoulou, M.; Davazoglou, D. 2011: Porous Hot-Wire Metal Oxides Thin Films in Hydrogen Sensing. Procedia Engineering 25: 300-303
Zhang, L.; Song, S.; Yang, N.; Tantai, X.; Xiao, X.; Jiang, B.; Sun, Y. 2019: Porous Hybrid Nanoflower Self-Assembled from Polyoxometalate and Polyionene for Efficient Oxidative Desulfurization. Industrial-Engineering Chemistry Research 58(9): 3618-3629
Guo, Y.; Hu, C. 2003: Porous Hybrid Photocatalysts Based on Polyoxometalates. Journal of Cluster Science 14(4): 505-526
Xia, X.; Tu, J.; Zhang, Y.; Chen, J.; Wang, X.; Gu, C.; Guan, C.; Luo, J.; Fan, H.J. 2012: Porous Hydroxide Nanosheets on Preformed Nanowires by Electrodeposition: Branched Nanoarrays for Electrochemical Energy Storage. Chemistry of Materials 24(19): 3793-3799
Wu, Y.; Wang, C.; Li, J.; Li, Y. 2021: Porous Hydroxyapatite Foams: Excellent Carrier of Hydrated Salt with Adjustable Pores for Thermal Energy Storage. Industrial-Engineering Chemistry Research 60(3): 1259-1265
Panero, S.; Moreno, J.S.; Aleandri, P.; Landi, E.; Sprio, S.; Tampieri, A. 2007: Porous Hydroxyapatite Surface-Modified by Polypyrrole-Heparin Conducting Polymer. Bioceramics 20: 443-446
Meng, Z.; Wang, C.; Zhang, Y.; Luo, C.; Wang, Z.; Li, W. 2019: Porous Hydroxyapatite/Strontium Oxide Composite Ceramic Preparation and Properties of Biomaterials. Journal of Biomaterials and Tissue Engineering 9(6): 783-788
Li, P.; Fan, H. 2015: Porous In2O3 microstructures: Hydrothermal synthesis and enhanced Cl2 sensing performance. Materials Science in Semiconductor Processing 29: 83-89
Xu, L.; Dong, B.; Wang, Y.; Bai, X.; Chen, J.; Liu, Q.; Song, H. 2010: Porous In2O3:RE (RE = Gd, Tb, Dy, Ho, Er, Tm, Yb) Nanotubes: Electrospinning Preparation and Room Gas-Sensing Properties. The Journal of Physical Chemistry C 114(19): 9089-9095
Lu, X.; Yin, L. 2011: Porous Indium Oxide Nanorods: Synthesis, Characterization and Gas Sensing Properties. Journal of Materials Science-Technology 27(8): 680-684
Du, N.; Zhang, H.; Chen, B.; Ma, X.; Liu, Z.; Wu, J.; Yang, D. 2007: Porous Indium Oxide Nanotubes: Layer-by-Layer Assembly on Carbon-Nanotube Templates and Application for Room-Temperature NH3 Gas Sensors. Advanced Materials 19(12): 1641-1645
Uchida, S. 2017: Porous Ionic Crystals Based on Polyoxometalates. Polyoxometalate-Based Assemblies and Functional Materials: 65-87
Fan, Y.; Cheng, X. 2016: Porous Ir O2-Ta2O5Coating Modified with Carbon Nanotubes for Oxygen Evolution Reaction. Journal of The Electrochemical Society 163(8): E209-E215
Lu, W. 2018: Porous Ir-Sn Binary Oxide Nanorod Assembly as an Efficient Electrocatalyst for Water Oxidation. International Journal of Electrochemical Science: 3235-3245
Wang, Y.; Zhang, X.; He, W.; Yang, W.; Wei, C. 2019: Porous Isomeric Li 2.5 Na 0.5 V 2 (PO 4 ) 3 Wide Voltage Cathode for High‐Performance Lithium‐Ion Batteries Synthesized Through a Colloid Chemical Method. ChemElectroChem 6(10): 2638-2647
Yan, L.; Yang, X.; Zhang, Y.; Wu, Y.; Cheng, Z.; Darling, S.B.; Shao, L. 2021: Porous Janus materials with unique asymmetries and functionality. Materials Today 51: 626-647
Wang, X.; Sun, K.; Li, S.; Song, X.; Cheng, L.; Ma, W. 2018: Porous Javelin‐Like Ni Fe 2 O 4 Nanorods as n‐Propanol Sensor with Ultrahigh‐Performance. ChemistrySelect 3(45): 12871-12877
Höller, L. 2021: Porous Kirkenes: Crumbling Mining Town or Dynamic Port Cityscape?. Urban Planning 6(3): 197-209
Wang, X.; He, F.; Chen, Z.; Atkinson, A. 2014: Porous LSCF/dense 3YSZ interface fracture toughness measured by single cantilever beam wedge test. Journal of the European Ceramic Society 34(10): 2351-2361
Wang, B.; Hu, Q.; Wan, T.; Yang, F.; Cui, L.; Hu, S.; Gong, B.; Li, M.; Zheng, Q.C. 2016: Porous Lactose-Modified Chitosan Scaffold for Liver Tissue Engineering: Influence of Galactose Moieties on Cell Attachment and Mechanical Stability. International Journal of Polymer Science 2016: 1-8
Che, S.; Fang, L. 2020: Porous Ladder Polymer Networks. Chem 6(10): 2558-2590
Li, B.; Chen, B. 2014: Porous Lanthanide Metal–Organic Frameworks for Gas Storage and Separation. Lanthanide Metal-Organic Frameworks: 75-107
Halasz, I.; Horvath, C. 1964: Porous Layer Glass Bead Column Packing in Gas Adsorption Layer Chromatography. Analytical Chemistry 36(12): 2226-2229
Ban, C.; Xu, Z.; Wang, D.; Liu, Z.; Zhang, H. 2019: Porous Layered Carbon with Interconnected Pore Structure Derived from Reed Membranes for Supercapacitors. ACS Sustainable Chemistry-Engineering 7(12): 10742-10750
Kiyota, Y.; Kojima, T.; Kawahara, R.; Taira, M.; Naruke, H.; Kawano, M.; Uchida, S.; Ito, T. 2021: Porous Layered Inorganic–Organic Hybrid Frameworks Constructed from Polyoxovanadate and Bolaamphiphiles. Crystal Growth-Design 21(12): 7230-7239
Ganas, A.S.; Znamensky, D.A.; Mendez Alba, N.; Hernandez-Pozos, J.L.; Kolasinski, K.W. 2015: Porous Layers Composed of Oxide Crystallites Formed by the Combination of Laser Ablation and Anodization of Metal. ECS Transactions 69(2): 155-160
Li, S.; Zhu, K.; Zhao, D.; Zhao, Q.; Zhang, N. 2018: Porous Li Mn2O4 with Al2O3 coating as high-performance positive materials. Ionics 25(5): 1991-1998
Liu, G.; Kong, X.; Li, Y.; Wang, B. 2016: Porous Li Mn2O4with improved rate capability synthesised by facile biotemplate method. Materials Technology 31(5): 299-306
Wang, J.; Lin, W.; Wu, B.; Zhao, J. 2014: Porous Li Ni0.5Mn1.5O4 sphere as 5 V cathode material for lithium ion batteries. J. Mater. Chem. A 2(39): 16434-16442
Zeng, X.; Wu, P.; Luo, F.; Zhou, C.; Tong, D. 2010: Porous Li Ni0.75Co0.25O2 microspheres prepared via a hydrothermal process as cathode material for lithium ion batteries. Journal of Physics and Chemistry of Solids 71(9): 1404-1409
Guo, X.; Gao, H.; Liu, X.; Diao, J.; Shi, X.; Zhao, N.; Wang, Y. 2017: Porous Li-containing biphasic calcium phosphate scaffolds fabricated by three-dimensional plotting for bone repair. RSC Advances 7(55): 34508-34516
Zhang, H.; Deng, Q.; Zhou, A.; Liu, X.; Li, J. 2014: Porous Li2C8H4O4 coated with N-doped carbon by using CVD as an anode material for Li-ion batteries. J. Mater. Chem. A 2(16): 5696-5702
Gao, L.; Li, S.; Huang, D.; Shen, Y.; Wang, M. 2015: Porous Li4Ti5O12–Ti O2 nanosheet arrays for high-performance lithium-ion batteries. Journal of Materials Chemistry A 3(18): 10107-10113
Huang, W.; Wang, G.; Li, W.; Li, T.; Ji, G.; Ren, S.; Jiang, M.; Yan, L.; Tang, H.; Pan, Y.; Ding, Y. 2020: Porous Ligand Creates new Reaction Route: Bifunctional Single-Atom Palladium Catalyst for Selective Distannylation of Terminal Alkynes. Chem 6(9): 2300-2313
Zhang, J.; Chai, S.; Qiao, Z.; Mahurin, S.M.; Chen, J.; Fang, Y.; Wan, S.; Nelson, K.; Zhang, P.; Dai, S. 2014: Porous Liquids: a Promising Class of Media for Gas Separation. Angewandte Chemie 127(3): 946-950
Fulvio, P.F.; Dai, S. 2020: Porous Liquids: the Next Frontier. Chem 6(12): 3263-3287
Wang, Q.; Chen, X.; Zhu, J.; Darvell, B.W.; Chen, Z. 2008: Porous Li–Na–K niobate bone-substitute ceramics: Microstructure and piezoelectric properties. Materials Letters 62(20): 3506-3508
Tyberg, C.; Huang, E.; Hedrick, J.; Simonyi, E.; Gates, S.; Cohen, S.; Malone, K.; Wickland, H.; Sankarapandian, M.; Toney, M.; Kim, H.; Miller, R.; Volksen, W.; Rice, P.; Lurio, L. 2004: Porous Low-k Dielectrics: Material Properties. ACS Symposium Series: 161-172
Chen, X.Y.; Li, Z.; Bao, S.P.; Ji, P.T. 2011: Porous MAl2O4:Eu2+ (Eu3+), Dy3+ (M=Sr, Ca, Ba) phosphors prepared by Pechini-type sol–gel method: the effect of solvents. Optical Materials 34(1): 48-55
Zhang, D.; Guan, Y.; Hensen, E.J.; Chen, L.; Wang, Y. 2013: Porous MOFs supported palladium catalysts for phenol hydrogenation: a comparative study on MIL-101 and MIL-53. Catalysis Communications 41: 47-51
Wang, J.; Wang, W.; Wang, Z.; Chen, J.G.; Liu, C. 2016: Porous MS2/MO2 (M = W, Mo) Nanorods as Efficient Hydrogen Evolution Reaction Catalysts. ACS Catalysis 6(10): 6585-6590
Ming, F.; Liang, H.; Zhang, W.; Ming, J.; Lei, Y.; Emwas, A.; Alshareef, H.N. 2019: Porous MXenes enable high performance potassium ion capacitors. Nano Energy 62: 853-860
Wisser, F.M.; Mohr, Y.; Quadrelli, E.A.; Canivet, J. 2020: Porous Macroligands: Materials for Heterogeneous Molecular Catalysis. ChemCatChem 12(5): 1270-1275
Liu, X.; Liu, J.; Liu, X.; Yang, Z.; Yu, H.; Wang, F. 2016: Porous Magnesia Fibers as an Immobilizing Agent for Molten Salt in Thermal Batteries. Journal of The Electrochemical Society 163(5): A617-A623
Jasmawati, N.; Djuansjah, J.R.; Kadir, M.R.A.; Sukmana, I. 2015: Porous Magnesium Scaffolds for Bone Implant Applications: a Review. Advanced Materials Research 1125: 437-440
Tsunobuchi, Y.; Hashimoto, K.; Shiro, M.; Hozumi, T.; Ohkoshi, S. 2007: Porous Magnets Based on Copper–Octacyanotungsten Containing Noncoordinated Alcohol Molecules. Chemistry Letters 36(12): 1464-1465
Nasrallah, H.; Hierso, J. 2018: Porous Materials Based on 3-Dimensional Td-Directing Functionalized Adamantane Scaffolds and Applied as Recyclable Catalysts. Chemistry of Materials 31(3): 619-642
Liu, Y.; Zhang, Y.; Guo, Y.; Chu, P.K.; Tu, S. 2016: Porous Materials Composed of Flue Gas Desulfurization Gypsum and Textile Fiber Wastes. Waste and Biomass Valorization 8(1): 203-207
Pinto, M.L.; Pires, J.; Rocha, J. 2008: Porous Materials Prepared from Clays for the Upgrade of Landfill Gas. The Journal of Physical Chemistry C 112(37): 14394-14402
Cooper, A. 2003: Porous Materials and Supercritical Fluids. Advanced Materials 15(13): 1049-1059
Qi, J.; Zhang, W.; Cao, R. 2018: Porous Materials as Highly Efficient Electrocatalysts for the Oxygen Evolution Reaction. ChemCatChem 10(6): 1206-1220
Wannakao, S.; Maihom, T.; Probst, M.; Limtrakul, J.; Kongpatpanich, K. 2016: Porous Materials as a Platform for Highly Uniform Single-Atom Catalysts: Tuning the Electronic Structure for the Low-Temperature Oxidation of Carbon Monoxide. The Journal of Physical Chemistry C 120(35): 19686-19697
Guenet, J.; Parmentier, J.; Daniel, C. 2011: Porous Materials from Polyvinylidene Fluoride/Solvent Molecular Compounds. Soft Materials 9(2-3): 280-294
Goldsmid, H.J. 2009: Porous Materials in Synthetic Transverse Thermoelements. Journal of Electronic Materials 39(9): 1987-1989
Phung, T.; Zhang, Y.; Dunlop, J.; Dalziel, J.E. 2011: Porous Materials to Support Bilayer Lipid Membranes for Ion Channel Biosensors. International Journal of Electrochemistry 2011: 1-6
Chen, H.; Hsieh, C.; Cheng, C.; Chang, C.; Hsu, W.; Wang, W.; Liu, P. 2005: Porous Materials with Ultralow Optical Constants for Integrated Optical Device Applications. Japanese Journal of Applied Physics 44(7B): 5673-5676
Armstrong, R.T.; McClure, J.E.; Robins, V.; Liu, Z.; Arns, C.H.; Schlüter, S.; Berg, S. 2018: Porous Media Characterization Using Minkowski Functionals: Theories, Applications and Future Directions. Transport in Porous Media 130(1): 305-335
Li, Y.; Yao, S. 2015: Porous Media Modeling of Microchannel Cooled Electronic Chips with Nonuniform Heating. Journal of Thermophysics and Heat Transfer 29(4): 695-704
Yu, H.; Christakos, G. 2005: Porous Media Upscaling in Terms of Mathematical Epistemic Cognition. SIAM Journal on Applied Mathematics 66(2): 433-446
Kim, I.; Zhang, Y.P. 2021: Porous Medium Equation with a Drift: Free Boundary Regularity. Archive for Rational Mechanics and Analysis 242(2): 1177-1228
Kuznetsov, A.V.; Chitrphiromsri, P. 2005: Porous Medium Model for Investigating Transient Heat and Moisture Transport in Firefighter Protective Clothing under High-Intensity Thermal Exposure. Journal of Porous Media 8(5): 511-528
Jiang, H.; Liu, Y.; Xing, W.; Chen, R. 2021: Porous Membrane Reactors for Liquid-Phase Heterogeneous Catalysis. Industrial-Engineering Chemistry Research 60(25): 8969-8990
Fedotov; Tsodikov, M.; Golubev, K.; Uvarov, V.; Demin, A.; Zaykov, U. 2012: Porous Membrane-catalytic Systems as Effective Ensemble of Nano-reactors for Hydrogen Containing Gas Production from Biomass Products and Industrial Organic Wastes. Procedia Engineering 44: 426-428
Ritchie, S.M.C.; Shah, T.N.; Wu, L.; Claiborn, C.; Goodwin, J.C. 2004: Porous Membranes Containing Zero-Valent Iron Nanorods for Water Treatment. Nanotechnology and the Environment: 262-265
Mazzocchi, A.R.; Man, A.J.; DesOrmeaux, J.S.; Gaborski, T.R. 2014: Porous Membranes Promote Endothelial Differentiation of Adipose-Derived Stem Cells and Perivascular Interactions. Cellular and Molecular Bioengineering 7(3): 369-378
Nunes-Pereira, J.; Lopes, A.C.; Costa, C.M.; Leones, R.; Silva, M.M.; Lanceros-Méndez, S. 2012: Porous Membranes of Montmorillonite/Poly(vinylidene fluoride-trifluorethylene) for Li-Ion Battery Separators. Electroanalysis 24(11): 2147-2156
Denkena, B.; Grove, T.; Suntharakumaran, V. 2018: Porous Metal Bonds Increase the Resource Efficiency for Profile Grinding. Procedia CIRP 69: 265-270
Avalos-Gauna, E.; Zhao, Y.; Palafox, L.; Ortiz-Monasterio-Martínez, P. 2021: Porous Metal Properties Analysis: a Machine Learning Approach. JOM 73(7): 2039-2049
Ikehara, T.; Noda, Z.; Matsuda, J.; Nishihara, M.; Hayashi, A.; Sasaki, K. 2020: Porous Metal Support for Gas Diffusion Electrode of PEFCs. ECS Transactions 98(9): 573-582
Yuan, W.; Tang, Y.; Yang, X.J. 2012: Porous Metal-Fiber Sintered Felt by Multi-Tooth Cutting and Sintering- Morphological Analysis and Mechanisms. Advanced Materials Research 591-593: 1102-1107
Li, B.; Wen, H.; Zhou, W.; Xu, J.; Chen, B. 2016: Porous Metal-Organic Frameworks: Promising Materials for Methane Storage. Chem 1(4): 557-580
Liu, J.; He, C.; Cheng, F.; Huang, C. 2017: Porous Metal-organic Framework based on Strip-shaped Manganese(II) Chains: Synthesis, Structure, and Magnetic Properties. Zeitschrift für anorganische und allgemeine Chemie 643(8): 548-552
Li, J.; Han, Y.; Ji, T.; Wu, N.; Lin, H.; Jiang, J.; Zhu, J. 2019: Porous Metallosalen Hypercrosslinked Ionic Polymers for Cooperative CO2 Cycloaddition Conversion. Industrial-Engineering Chemistry Research 59(2): 676-684
Lefebvre, L.; Banhart, J.; Dunand, D. 2008: Porous Metals and Metallic Foams: Current Status and Recent Developments. Advanced Engineering Materials 10(9): 775-787
Han, S.Y.; Lewis, J.A.; Shetty, P.P.; Tippens, J.; Yeh, D.; Marchese, T.S.; McDowell, M.T. 2020: Porous Metals from Chemical Dealloying for Solid-State Battery Anodes. Chemistry of Materials 32(6): 2461-2469
Kulinowski, K.M.; Jiang, P.; Vaswani, H.; Colvin, V.L. 2000: Porous Metals from Colloidal Templates. Advanced Materials 12(11): 833-838
Malik, R.; Loveridge, M.J.; Williams, L.J.; Huang, Q.; West, G.; Shearing, P.R.; Bhagat, R.; Walton, R.I. 2019: Porous Metal–Organic Frameworks for Enhanced Performance Silicon Anodes in Lithium-Ion Batteries. Chemistry of Materials 31(11): 4156-4165
Wang, Y.; Zhang, L.; Zhang, R.; Jin, Y.; Wang, Y.; Xing, Y.; Bai, F.; Sun, L. 2017: Porous Metal–Organic Frameworks with 5-Aminoisophthalic Acid as Platforms for Functional Applications about High Photodegradation Efficiency of Phenol. Crystal Growth-Design 17(12): 6531-6540
Tseng, T.; Luo, T.; Chen, S.; Su, C.; Chi, K.; Lu, K. 2012: Porous Metal–Organic Frameworks with Multiple Cages Based on Tetrazolate Ligands: Synthesis, Structures, Photoluminescence, and Gas Adsorption Properties. Crystal Growth-Design 13(2): 510-517
Zou, R.; Abdel-Fattah, A.I.; Xu, H.; Burrell, A.K.; Larson, T.E.; McCleskey, T.M.; Wei, Q.; Janicke, M.T.; Hickmott, D.D.; Timofeeva, T.V.; Zhao, Y. 2010: Porous Metal−Organic Frameworks Containing Alkali-Bridged Two-Fold Interpenetration: Synthesis, Gas Adsorption, and Fluorescence Properties. Crystal Growth-Design 10(3): 1301-1306
Ciobanu, C.S.; Iconaru, S.L.; Popa, C.L.; Costescu, A.; Motelica-Heino, M.; Predoi, D. 2014: Porous Methyltrimethoxysilane Coated Nanoscale-Hydroxyapatite for Removing Lead Ions from Aqueous Solutions. Journal of Nanomaterials 2014: 1-9
Huo, B.; Fu, Q.; Hu, L.; Chen, X.; Zhang, H.; Zhu, J. 2009: Porous Mg O film grown on sapphire by pulsed-laser deposition. Micro-Nano Letters 4(1): 59-62
Hao, Y.; Shao, X.; Liu, T.; Li, B.; Nie, S. 2015: Porous Mg O material with ultrahigh surface area as the matrix for phase change composite. Thermochimica Acta 604: 45-51
Zhao, J.; Liu, J.; Li, H.; Zeng, M.; Yang, X.; Liu, X.; Yang, Z. 2021: Porous Mg O pompons as a binder for the molten electrolyte applied in thermal batteries. Ionics 27(3): 1271-1278
Sun, X.; Liu, X.; Jiang, X.; Jiang, L.; Tian, X.; Hou, P.; Zhang, S.; Xu, X. 2017: Porous Micro-/Nano-Structures of Zn O-/In2O3 Composite with Enhanced Gas Sensing Properties. Nanoscience and Nanotechnology Letters 9(9): 1381-1386
Hatakeyama, Y.; Umeda, M.; Mohamedi, M.; Itoh, T.; Uchida, I. 2002: Porous Micro-ring Electrode- Preparation and Investigation of Methanol Oxidation. Electrochemistry 70(12): 964-965
Rasitha, T.P.; Vanithakumari, S.C.; George, R.P.; Philip, J. 2019: Porous Microcapsule-Based Regenerating Superhydrophobic Coating on 304L SS and its Corrosion Properties. Journal of Materials Engineering and Performance 28(11): 7047-7057
Fei, M.; Shi, H.; Zhao, J.; Kang, N.; He, W.; Li, H.; Yang, F. 2018: Porous Microspherical N and P‐co‐doped Ni Fe 2 O 4 /Single‐Walled Carbon Nanotubes for Efficient Electrochemical Oxygen Evolution Reaction. ChemCatChem 10(22): 5174-5181
Ding, R.; Li, Z.; Wang, C.; Chen, M. 2017: Porous Mn Co2O4-Ti O2 microspheres with a yolk-shell structure for lithium-ion battery applications. Journal of Alloys and Compounds 726: 445-452
Wang, N.; Ma, X.; Wang, Y.; Yang, J.; Qian, Y. 2015: Porous Mn Fe2O4 microrods as advanced anodes for Li-ion batteries with long cycle lifespan. Journal of Materials Chemistry A 3(18): 9550-9555
Li, J. 2016: Porous Mn Ni2O4 Nanorods as an Efficient Bifunctional Catalyst for Rechargeable Li–O2 battery. International Journal of Electrochemical Science: 3227-3237
Lei, X.; Lu, S.; Ma, W.; Cao, Z.; Zhang, R.; Liu, X.; Ding, Y. 2018: Porous Mn O as efficient catalyst towards the decomposition of Li2CO3 in ambient Li-air batteries. Electrochimica Acta 280: 308-314
Xu, Y.; Xu, G.; Su, H.; Chen, Y.; Fang, J.; Wang, Q.; Huang, L.; Li, J.; Sun, S. 2016: Porous Mn O/C of composite nanostructure consisting of nanorods and nano-octahedra as anode of lithium ion batteries with enhanced electrochemical performances. Journal of Alloys and Compounds 676: 156-163
Yang, J.; Yang, X.; Zhong, Y.L.; Ying, J.Y. 2015: Porous Mn O/Mn3O4 nanocomposites for electrochemical energy storage. Nano Energy 13: 702-708
Bian, S.; Zhao, Y.; Xian, C. 2013: Porous Mn O2 hollow spheres constructed by nanosheets and their application in electrochemical capacitors. Materials Letters 111: 75-77
Kim, M.J.; Lee, K.; Seo, M.; Lee, K. 2017: Porous Mn O2/CNT catalysts with a large specific surface area for the decomposition of hydrogen peroxide. Korean Journal of Chemical Engineering 34(8): 2147-2153
Rostami, R.; Faraji, M. 2020: Porous Mn O2–CNTs–Cellophane Nanocomposite for High-Voltage Flexible Supercapacitors. Journal of Inorganic and Organometallic Polymers and Materials 30(9): 3438-3447
Feng, J.; Wang, X.; Zhang, D.; Wang, Y.; Wang, J.; Pi, M.; Zhou, H.; Li, J.; Chen, S. 2018: Porous Mn-Doped Co P3 Nanowires as a Janus Electrocatalyst for Efficient Overall Water Splitting in Alkaline Solution. Journal of The Electrochemical Society 165(16): F1323-F1330
Chen, S.; Li, H.; Hao, Y.; Chen, R.; Chen, T. 2020: Porous Mn-based oxides for complete ethanol and toluene catalytic oxidation: the relationship between structure and performance. Catalysis Science-Technology 10(6): 1941-1951
Ma, W.; Lu, S.; Lei, X.; Liu, X.; Ding, Y. 2018: Porous Mn2O3 cathode for highly durable Li–CO2 batteries. Journal of Materials Chemistry A 6(42): 20829-20835
Zhou, B.; Yang, J.; Jiang, X. 2015: Porous Mn2O3 nanorods synthesized from thermal decomposition of coordination polymer and used in hydrazine electrochemical sensing. Materials Letters 159: 362-365
Tang, W.; Wu, X.; Li, S.; Li, W.; Chen, Y. 2014: Porous Mn–Co mixed oxide nanorod as a novel catalyst with enhanced catalytic activity for removal of VOCs. Catalysis Communications 56: 134-138
He, M.; Shi, H.; Sun, X.; Gao, B. 2020: Porous Mo 2 C−Mo P Heterostructure on Carbon Cloth for Efficient Hydrogen Evolution Reaction over a Broad p H Range. ChemCatChem 13(3): 966-974
Zhang, K.; Yang, H.; Lü, M.; Yan, C.; Wu, H.; Yuan, A.; Lin, S. 2018: Porous Mo O2-Cu/C/Graphene nano-octahedrons quadruple nanocomposites as an advanced anode for lithium ion batteries with enhanced rate capability. Journal of Alloys and Compounds 731: 646-654
Zhao, G.; Zhang, N.; Sun, K. 2013: Porous Mo O3 films with ultra-short relaxation time used for supercapacitors. Materials Research Bulletin 48(3): 1328-1332
Gao, X.; Ouyang, Q.; Zhu, C.; Zhang, X.; Chen, Y. 2019: Porous Mo O3/Sn O2 Nanoflakes with n–n Junctions for Sensing H2S. ACS Applied Nano Materials 2(4): 2418-2425
Yu, X.; Wang, L.; Liu, J.; Sun, X. 2014: Porous Mo O3Film as a High-Performance Anode Material for Lithium-Ion Batteries. ChemElectroChem 1(9): 1476-1479
Liu, W.; Shen, J.; Liu, Q.; Yang, X.; Tang, H. 2018: Porous Mo P network structure as co-catalyst for H2 evolution over g-C3N4 nanosheets. Applied Surface Science 462: 822-830
Kadam, S.R.; Kawade, U.V.; Bar-Ziv, R.; Gosavi, S.W.; Bar-Sadan, M.; Kale, B.B. 2019: Porous Mo S2 Framework and its Functionality for Electrochemical Hydrogen Evolution Reaction and Lithium Ion Batteries. ACS Applied Energy Materials 2(8): 5900-5908
Zhao, Y.; Wang, S.; Liu, H.; Guo, X.; Zeng, X.; Wu, W.; Zhang, J.; Wang, G. 2019: Porous Mo2C nanorods as an efficient catalyst for the hydrogen evolution reaction. Journal of Physics and Chemistry of Solids 132: 230-235
Liu, S.; Huang, J.; Liu, J.; Lei, M.; Min, J.; Li, S.; Liu, G. 2016: Porous Mo2N nanobelts as a new anode material for sodium-ion batteries. Materials Letters 172: 56-59
Li, J.; Tang, C.; Liang, T.; Tang, C.; Lv, X.; Tang, K.; Li, C.M. 2020: Porous Molybdenum Carbide Nanostructured Catalyst toward Highly Sensitive Biomimetic Sensing of H 2 O 2. Electroanalysis 32(6): 1243-1250
Hao, Q.; Liu, Z.; Zhang, B.; Wang, G.; Ma, C.; Frandsen, W.; Li, J.; Liu, Z.; Hao, Z.; Su, D.S. 2012: Porous Montmorillonite Heterostructures Directed by a Single Alkyl Ammonium Template for Controlling the Product Distribution of Fischer–Tropsch Synthesis over Cobalt. Chemistry of Materials 24(6): 972-974
Ha, B.; Kim, S.; Kim, C.; Jung, O. 2010: Porous Morphology and Selective Metal-Adsorption of Burned Human Hairs. Bulletin of the Korean Chemical Society 31(6): 1459-1460
García Blanco, A.A.; Furlong, O.J.; Stacchiola, D.J.; Sapag, K.; Nazzarro, M.S. 2019: Porous Mox Cy/Si O2 Material for CO2 Hydrogenation. Topics in Catalysis 62(12-16): 1026-1034
Li, D. 2017: Porous Multilayered Films Based on poly(3,4- ethylenedioxythiophene) and poly(indole-5-carboxylic acid) and their Capacitance Performance. International Journal of Electrochemical Science: 2741-2753
Ghulinyan, M.; Pavesi, L. 2019: Porous Multilayers as a Dielectric Host for Photons Manipulation. ECS Transactions 16(3): 307-321
Sun, H.; Xu, X.; Yan, Z.; Chen, X.; Cheng, F.; Weiss, P.S.; Chen, J. 2017: Porous Multishelled Ni2P Hollow Microspheres as an Active Electrocatalyst for Hydrogen and Oxygen Evolution. Chemistry of Materials 29(19): 8539-8547
Borghei, M.; Laocharoen, N.; Kibena-Põldsepp, E.; Johansson, L.; Campbell, J.; Kauppinen, E.; Tammeveski, K.; Rojas, O.J. 2017: Porous N,P-doped carbon from coconut shells with high electrocatalytic activity for oxygen reduction: Alternative to Pt-C for alkaline fuel cells. Applied Catalysis B: Environmental 204: 394-402
Liu, Y. 2019: Porous N-doped Carbon Derived from ZIF-8/Reduced Graphene oxide/Polypyrrole Composite for High Performance Supercapacitor. International Journal of Electrochemical Science: 5096-5106
Xia, L.; Yang, Y.; Cao, Y.; Liu, B.; Li, X.; Chen, X.; Song, H.; Zhang, X.; Gao, B.; Fu, J. 2019: Porous N-doped Ti O2 nanotubes arrays by reverse oxidation of Ti N and their visible-light photocatalytic activity. Surface and Coatings Technology 365: 237-241
Wang, Y.; Hou, B.; Lü, H.; Wan, F.; Wang, J.; Wu, X. 2015: Porous N-doped carbon material derived from prolific chitosan biomass as a high-performance electrode for energy storage. RSC Advances 5(118): 97427-97434
Cheng, H.; Cheng, P.; Chuah, X.; Huang, C.; Hsieh, C.; Yu, J.; Lin, C.; Lu, S. 2019: Porous N-doped carbon nanostructure integrated with mesh current collector for Li-ion based energy storage. Chemical Engineering Journal 374: 201-210
Yang, Z.; Xia, Y.; Mokaya, R. 2005: Porous N-doped carbon with various hollow-cored morphologies nanocast using zeolite templates via chemical vapour deposition. Nanoporous Materials IV, Proceedings of the 4th International Symposium on Nanoporous Materials: 573-580
Luo, Q.; Chen, L.; Duan, B.; Gu, Z.; Liu, J.; Xu, M.; Duan, C. 2016: Porous N-doped graphitic carbon assembled one-dimensional hollow structures as high performance electrocatalysts for ORR. RSC Advances 6(15): 12467-12471
Lu, W.; Jiang, R.; Yin, X.; Wang, L. 2018: Porous N-doped-carbon coated Co Se2 anchored on carbon cloth as 3D photocathode for dye-sensitized solar cell with efficiency and stability outperforming Pt. Nano Research 12(1): 159-163
Chen, D.; Sun, W.; Qian, C.; Reyes, L.M.; Wong, A.P.Y.; Dong, Y.; Jia, J.; Chen, K.K.; Ozin, G.A. 2016: Porous NIR Photoluminescent Silicon Nanocrystals-POSS Composites. Advanced Functional Materials 26(28): 5102-5110
Yang, G.; Song, H.; Wu, M.; Wang, C. 2015: Porous Na Ti2(PO4)3nanocubes: a high-rate nonaqueous sodium anode material with more than 10 000 cycle life. Journal of Materials Chemistry A 3(36): 18718-18726
Hosono, H.; Abe, Y. 1990: Porous Na Ti2 (  PO 4 ) 3 Glass Ceramics. Journal of The Electrochemical Society 137(10): 3149-3151
Zheng, L.; Xue, Y.; Hao, S.; Wang, Z. 2018: Porous Na3V2(PO4)3 prepared by freeze-drying method as high performance cathode for sodium-ion batteries. Ceramics International 44(8): 9880-9886
Bao, S.; Huang, Y.; Luo, S.; Lu, J. 2020: Porous Na3V2(PO4)3/C as cathode material for high-rate sodium-ion batteries by sacrificed template method. Ionics 26(10): 5011-5018
Wan, P.; Wu, Z.; Zhang, H.; Gao, L.; Wang, J. 2016: Porous Nano-Si C as Thermal Insulator: Wisdom on Balancing Thermal Stability, High Strength and Low Thermal Conductivity. Materials Research Letters 4(2): 104-111
Wu, C.; Aslan, S.; Gand, A.; Wolenski, J.S.; Pauthe, E.; Van Tassel, P.R. 2012: Porous Nanofilm Biomaterials Via Templated Layer-by-Layer Assembly. Advanced Functional Materials 23(1): 66-74
Vy Vo, U.; Hiep Nguyen, T.; Gallais, M.; Vu-Quang, H.; Khoa Nguyen, C.; Duc Lam, T.; Chinh Nguyen, D.; Giang Bach, L.; Hai Nguyen, D. 2019: Porous Nanosilica Hybrids Biocompatible Polymer for Enhancing Anticancer Drugs Loading Efficiency and Targeted Delivery. Materials Today: Proceedings 18: 4157-4163
Cheung, M.C.; Yung, K.Y.; Xu, H.; Kraut, N.D.; Liu, K.; Chodavarapu, V.P.; Cartwright, A.N.; Bright, F.V. 2012: Porous Nanostructured Encapsulation and Immobilization Materials for Optical Biosensors. IEEE Journal of Selected Topics in Quantum Electronics 18(3): 1147-1159
Guo, D.; Ding, Y. 2012: Porous Nanostructured Metals for Electrocatalysis. Electroanalysis 24(11): 2035-2043
van Popta, A.; Steele, J.; Tsoi, S.; Veinot, J.; Brett, M.; Sit, J. 2006: Porous Nanostructured Optical Filters Rendered Insensitive to Humidity by Vapor-Phase Functionalization. Advanced Functional Materials 16(10): 1331-1336
Li, Q.; Zhang, L.; Wei, D.; Ren, S.; Qu, X. 2017: Porous Nb-Ti based alloy produced from plasma spheroidized powder. Results in Physics 7: 1289-1298
Wang, X.; Zhang, J.; He, Y.; Wang, L.; Liu, L.; Wang, H.; Guo, X.; Lian, H. 2016: Porous Nd-doped In2O3 nanotubes with excellent formaldehyde sensing properties. Chemical Physics Letters 658: 319-323
Gopakumar, T.G.; Tang, H.; Thiel, W.R.; Hietschold, M. 2008: Porous Network Structure of Octacyano-Metal-Free Phthalocyanine on the Basal Plane of Highly Oriented Pyrolytic Graphite. The Journal of Physical Chemistry C 112(20): 7698-7705
Wang, X.; Zheng, Y.; Yuan, J.; Shen, J.; Hu, J.; Wang, A.; Wu, L.; Niu, L. 2017: Porous Ni Co Diselenide Nanosheets Arrayed on Carbon Cloth as Promising Advanced Catalysts Used in Water Splitting. Electrochimica Acta 225: 503-513
Sanchez, J.S.; Pendashteh, A.; Palma, J.; Anderson, M.; Marcilla, R. 2018: Porous Ni Co Mn ternary metal oxide/graphene nanocomposites for high performance hybrid energy storage devices. Electrochimica Acta 279: 44-56
Huang, Z.; Li, X.; Xiang, X.; Gao, T.; Zhang, Y.; Xiao, D. 2018: Porous Ni Co P in situ grown on Ni foam using molten-salt electrodeposition for asymmetric supercapacitors. Journal of Materials Chemistry A 6(46): 23746-23756
Zhang, X.; Wu, A.; Wang, X.; Tian, C.; An, R.; Fu, H. 2018: Porous Ni Co P nanosheets as efficient and stable positive electrodes for advanced asymmetric supercapacitors. Journal of Materials Chemistry A 6(37): 17905-17914
Zhang, X.; Su, D.; Wu, A.; Yan, H.; Wang, X.; Wang, D.; Wang, L.; Tian, C.; Sun, L.; Fu, H. 2019: Porous Ni Co P nanowalls as promising electrode with high-area and mass capacitance for supercapacitors. Science China Materials 62(8): 1115-1126
Chen, C.; Zhao, C.; Li, C.; Liu, J.; Gui, D. 2020: Porous Ni Co2O4 Nanowire Arrays as Supercapacitor Electrode Materials with Extremely High Cycling Stability. Chemical Research in Chinese Universities 36(4): 715-720
Qi, Y.; Zuo, Q.; Mei, Y.; Yao, T.; Wu, J. 2020: Porous Ni Co2O4 Sheet Catalysts for the Microwave-Assisted Fenton Reaction. ACS Applied Nano Materials 3(7): 7152-7160
Ding, R.; Qi, L.; Jia, M.; Wang, H. 2013: Porous Ni Co2O4 nanostructures as bi-functional electrocatalysts for CH3OH oxidation reaction and H2O2 reduction reaction. Electrochimica Acta 113: 290-301
Zhu, Y.; Wu, Z.; Jing, M.; Hou, H.; Yang, Y.; Zhang, Y.; Yang, X.; Song, W.; Jia, X.; Ji, X. 2015: Porous Ni Co2O4 spheres tuned through carbon quantum dots utilised as advanced materials for an asymmetric supercapacitor. Journal of Materials Chemistry A 3(2): 866-877
Luo, Y.; Zhang, H.; Guo, D.; Ma, J.; Li, Q.; Chen, L.; Wang, T. 2014: Porous Ni Co2O4-reduced graphene oxide (r GO) composite with superior capacitance retention for supercapacitors. Electrochimica Acta 132: 332-337
Li, L.; Shen, L.; Nie, P.; Pang, G.; Wang, J.; Li, H.; Dong, S.; Zhang, X. 2015: Porous Ni Co2O4nanotubes as a noble-metal-free effective bifunctional catalyst for rechargeable Li–O2batteries. Journal of Materials Chemistry A 3(48): 24309-24314
Wu, X.; Zhou, X.; Hu, L.; Zhang, S.; Wang, W.; Tang, S. 2021: Porous Ni Co2O4–Fe Co2O4 Nanowire Arrays as Advanced Electrodes for High-Performance Flexible Asymmetric Supercapacitors. Energy-Fuels 35(15): 12680-12687
Chai, H.; Dong, H.; Wang, Y.; Xu, J.; Jia, D. 2017: Porous Ni Co2S4-halloysite hybrid self-assembled from nanosheets for high-performance asymmetric supercapacitor applications. Applied Surface Science 401: 399-407
Chen, Z.; Liu, X.; Shen, T.; Wu, C.; Zu, L.; Zhang, L. 2021: Porous Ni Fe alloys synthesized via freeze casting as bifunctional electrocatalysts for oxygen and hydrogen evolution reaction. International Journal of Hydrogen Energy 46(76): 37736-37745
Zhang, Z.; Ma, X.; Tang, J. 2018: Porous Ni Mo O4−x/Mo O2 hybrids as highly effective electrocatalysts for the water splitting reaction. Journal of Materials Chemistry A 6(26): 12361-12369
Guo, A.; Li, Y.; Liu, K.; Ruan, W. 2015: Porous Ni O architecture prepared with coordination polymer precursor as a high performance anode material for Li-ion batteries. RSC Advances 5(108): 89269-89272
Xu, J.; Tang, H.; Xu, T.; Wu, D.; Shi, Z.; Tian, Y.; Li, X. 2017: Porous Ni O hollow quasi-nanospheres derived from a new metal-organic framework template as high-performance anode materials for lithium ion batteries. Ionics 23(12): 3273-3280
Yu, F.; Xu, X.; Peng, H.; Yu, H.; Dai, Y.; Liu, W.; Ying, J.; Sun, Q.; Wang, X. 2015: Porous Ni O nano-sheet as an active and stable catalyst for CH4 deep oxidation. Applied Catalysis A: General 507: 109-118
Lu, S.; Shang, Y.; Ma, S.; Lu, Y.; Liu, Q.C.; Li, Z.J. 2019: Porous Ni O nanofibers as an efficient electrocatalyst towards long cycling life rechargeable Li–CO2 batteries. Electrochimica Acta 319: 958-965
Bai, G.; Dai, H.; Deng, J.; Liu, Y.; Ji, K. 2012: Porous Ni O nanoflowers and nanourchins: Highly active catalysts for toluene combustion. Catalysis Communications 27: 148-153
Dong, C.; Xiao, X.; Chen, G.; Guan, H.; Wang, Y.; Djerdj, I. 2015: Porous Ni O nanosheets self-grown on alumina tube using a novel flash synthesis and their gas sensing properties. RSC Advances 5(7): 4880-4885
Vijayakumar, S.; Nagamuthu, S.; Muralidharan, G. 2013: Porous Ni O/C Nanocomposites as Electrode Material for Electrochemical Supercapacitors. ACS Sustainable Chemistry-Engineering 1(9): 1110-1118
Chen, C.; Perdomo, P.J.; Fernandez, M.; Barbeito, A.; Wang, C. 2016: Porous Ni O/graphene composite thin films as high performance anodes for lithium-ion batteries. Journal of Energy Storage 8: 198-204
Huang, X.; Zhang, P.; Wu, J.; Lin, Y.; Guo, R. 2015: Porous Ni O/graphene hybrid film as anode for lithium ion batteries. Materials Letters 153: 102-105
Zhang, J.; Lu, H.; Liu, C.; Chen, C.; Xin, X. 2017: Porous Ni O–WO3 heterojunction nanofibers fabricated by electrospinning with enhanced gas sensing properties. RSC Advances 7(64): 40499-40509
Li, Y.; He, X.; Guo, M.; Lin, D.; Xu, C.; Xie, F.; Sun, X. 2018: Porous Ni Te2 nanosheet array: An effective electrochemical sensor for glucose detection. Sensors and Actuators B: Chemical 274: 427-432
Xing, C.; Liu, Y.; Zhang, Y.; Liu, J.; Zhang, T.; Tang, P.; Arbiol, J.; Soler, L.; Sivula, K.; Guijarro, N.; Wang, X.; Li, J.; Du, R.; Zuo, Y.; Cabot, A.; Llorca, J. 2019: Porous Ni Ti O3/Ti O2 nanostructures for photocatatalytic hydrogen evolution. Journal of Materials Chemistry A 7(28): 17053-17059
Ismail, M.H.; Goodall, R.; Davies, H.A.; Todd, I. 2012: Porous Ni Ti alloy by metal injection moulding/sintering of elemental powders: Effect of sintering temperature. Materials Letters 70: 142-145
Li, B.; Rong, L.; Li, Y. 1998: Porous Ni Ti alloy prepared from elemental powder sintering. Journal of Materials Research 13(10): 2847-2851
Oppenheimer, S.M.; Dunand, D.C. 2009: Porous Ni Ti by creep expansion of argon-filled pores. Materials Science and Engineering: A523(1-2): 70-76
Chen, J.; Xia, G.; Guo, Z.; Huang, Z.; Liu, H.; Yu, X. 2015: Porous Ni nanofibers with enhanced catalytic effect on the hydrogen storage performance of Mg H2. Journal of Materials Chemistry A 3(31): 15843-15848
Zhao, J.; Li, M.; Li, J.; Wei, C.; He, Y.; Huang, Y.; Li, Q. 2017: Porous Ni-Co-Mn oxides prisms for high performance electrochemical energy storage. Applied Surface Science 425: 1158-1167
Gu, J.; Xu, Y.; Li, Q.; Pang, H. 2021: Porous Ni/Ni O nanohybrids for electrochemical catalytic glucose oxidation. Chinese Chemical Letters 32(6): 2017-2020
Tseng, W.J.; Tsai, C. 2016: Porous Ni/Zr O2 Cermet from Highly Concentrated Composite Colloid. Journal of the American Ceramic Society 99(11): 3533-3539
Ma, Z.; Yuan, X.; Li, L.; Ma, Z.; Zhang, L.; Mai, L.; Zhang, J. 2015: Porous Ni0.14Mn0.86O1.43 hollow microspheres as high-performing anodes for lithium-ion batteries. Journal of Power Sources 291: 156-162
Zhang, M.; Gao, X.; Zi, Z.; Dai, J.; Wang, J.; Chou, S.; Liang, C.; Zhu, X.; Sun, Y.; Liu, H. 2014: Porous Ni0.5Zn0.5Fe2O4 Nanospheres: Synthesis, Characterization, and Application for Lithium Storage. Electrochimica Acta 147: 143-150
Wu, C.; Zhu, J.; Wang, H.; Wang, G.; Chen, T.; Tan, Y. 2019: Porous Ni1–x Cux O Nanowire Arrays as Noble-Metal-Free High-Performance Catalysts for Ammonia-Borane Electrooxidation. ACS Catalysis 10(1): 721-735
He, S.; He, S.; Bo, X.; Wang, Q.; Zhan, F.; Wang, Q.; Zhao, C. 2018: Porous Ni2P/C microrods derived from microwave-prepared MOF-74-Ni and its electrocatalysis for hydrogen evolution reaction. Materials Letters 231: 94-97
Shi, M.; Cui, M.; Kang, L.; Li, T.; Yun, S.; Du, J.; Xu, S.; Liu, Y. 2018: Porous Ni3(NO3)2(OH)4 nano-sheets for supercapacitors: Facile synthesis and excellent rate performance at high mass loadings. Applied Surface Science 427: 678-686
Li, T.; Cai, R.; Nie, X.; Tjong, J. 2019: Porous Ni3(PO4)2 thin film as a binder-free and low-cost anode of a high-capacity lithium-ion battery. Journal of Electroanalytical Chemistry 835: 81-85
Guo, R.; Li, D.; Lv, C.; Wang, Y.; Zhang, H.; Xia, Y.; Yang, D.; Zhao, X. 2019: Porous Ni3S4/C aerogels derived from carrageenan-Ni hydrogels for high-performance sodium-ion batteries anode. Electrochimica Acta 299: 72-79
Long, Y.; Zhan, J.; Huang, J. 2019: Porous Nickel Fibers with Enhanced Electrocatalytic Activities on Electro-oxidation of Ethanol in Alkaline Media. JOM 71(4): 1485-1491
Karam, L.; Reboul, J.; Casale, S.; Massiani, P.; El Hassan, N. 2019: Porous Nickel‐Alumina Derived from Metal‐Organic Framework (MIL‐53): a new Approach to Achieve Active and Stable Catalysts in Methane Dry Reforming. ChemCatChem 12(1): 373-385
Hall, D.E. 1982: Porous Nickel‐Coated Steel Anodes for Alkaline Water Electrolysis: Corrosion Resistance. Journal of The Electrochemical Society 129(2): 310-315
Tong, J.; Li, T.; Bo, L.; Li, W.; Li, Y.; Zhang, Y. 2019: Porous Nitrogen Self‐Doped Carbon Wrapped Iron Phosphide Hollow Spheres as Efficient Bifunctional Electrocatalysts for Water Splitting. ChemElectroChem 6(13): 3437-3444
Liu, L. 2017: Porous Nitrogen-Doped Carbon Derived from Peanut Shell as Anode Material for Lithium Ion Battery. International Journal of Electrochemical Science: 9844-9854
Yang, Q.; Sui, Z.; Liu, Y.; Han, B. 2016: Porous Nitrogen-Doped Carbon Nanoribbons for High-Performance Gas Adsorbents and Lithium Ion Batteries. Industrial-Engineering Chemistry Research 55(22): 6384-6390
Xu, J.; Xia, C.; Li, M.; Xiao, R. 2019: Porous Nitrogen‐Doped Carbons as Effective Catalysts for Oxygen Reduction Reaction Synthesized from Cellulose and Polyamide. ChemElectroChem 6(22): 5735-5743
Yang, L.; Wang, T.; Wu, D. 2020: Porous Nitrogen‐doped Reduced Graphene Oxide Gels as Efficient Supercapacitor Electrodes and Oxygen Reduction Reaction Electrocatalysts. Chinese Journal of Chemistry 38(10): 1123-1131
Nakajima, K.; Fukumoto, M. 2021: Porous Ni–Co surface formation and analysis of hydrogen generation by gas sensor. International Journal of Hydrogen Energy 46(52): 26263-26271
Xiao, Y.; Liu, Y.; Tang, Z.; Wu, L.; Zeng, Y.; Xu, Y.; He, Y. 2016: Porous Ni–Cr–Fe alloys as cathode materials for the hydrogen evolution reaction. RSC Advances 6(56): 51096-51105
Wang, X.; Li, K.; Jia, L.; Zhang, Q.; Jiang, S.P.; Chi, B.; Pu, J.; Jian, L.; Yan, D. 2015: Porous Ni–Fe alloys as anode support for intermediate temperature solid oxide fuel cells: I. Fabrication, redox and thermal behaviors. Journal of Power Sources 277: 474-479
Zanotti, C.; Giuliani, P.; Terrosu, A.; Gennari, S.; Maglia, F. 2007: Porous Ni–Ti ignition and combustion synthesis. Intermetallics 15(3): 404-412
Ma, Z.; Meng, H.; Wang, M.; Tang, B.; Li, J.; Wang, X. 2017: Porous Ni−Mo−S Nanowire Network Film Electrode as a High-Efficiency Bifunctional Electrocatalyst for Overall Water Splitting. ChemElectroChem 5(2): 335-342
Zhang, L.; Xiong, J.; Qin, Y.; Wang, C. 2019: Porous N–C catalyst synthesized by pyrolyzing g-C3N4 embedded in carbon as highly efficient oxygen reduction electrocatalysts for primary Zn-air battery. Carbon 150: 475-484
Hidalgo, N.; Calvo, M.E.; Colodrero, S.; Miguez, H. 2010: Porous One-Dimensional Photonic Crystal Coatings for Gas Detection. IEEE Sensors Journal 10(7): 1206-1212
Colodrero, S.; Mihi, A.; Häggman, L.; Ocaña, M.; Boschloo, G.; Hagfeldt, A.; Míguez, H. 2009: Porous One-Dimensional Photonic Crystals Improve the Power-Conversion Efficiency of Dye-Sensitized Solar Cells. Advanced Materials 21(7): 764-770
Singh, S.Y.; Verma, R.; Kumar, L. 2018: Porous Oral Drug Delivery System: Tablets. Pharmaceutical Chemistry Journal 52(6): 553-561
Denning, S.; Lucero, J.M.; Majid, A.A.A.; Crawford, J.M.; Carreon, M.A.; Koh, C.A. 2021: Porous Organic Cage CC3: An Effective Promoter for Methane Hydrate Formation for Natural Gas Storage. The Journal of Physical Chemistry C 125(37): 20512-20521
Liu, J.; Li, L.; Zhao, Z.; Yu, F. 2021: Porous Organic Cage Membranes for Biofuel Purification via Pervaporation: a Molecular Simulation Study. ACS Sustainable Chemistry-Engineering 9(44): 14890-14899
Kewley, A.; Stephenson, A.; Chen, L.; Briggs, M.E.; Hasell, T.; Cooper, A.I. 2015: Porous Organic Cages for Gas Chromatography Separations. Chemistry of Materials 27(9): 3207-3210
Kunde, T.; Pausch, T.; Schmidt, B.M. 2021: Porous Organic Compounds – Small Pores on the Rise. European Journal of Organic Chemistry 43: 5844-5856
Yan, T.; Xing, G.; Das, S.; Ben, T.; Qiu, S. 2018: Porous Organic Frameworks-derived Porous Carbons with Outstanding Gas Adsorption Performance. Chemical Research in Chinese Universities 34(3): 338-343
Xiong, M.; Ding, H.; Li, B.; Zhou, T.; Wang, C. 2014: Porous Organic Molecular Cages: from Preparation to Applications. Current Organic Chemistry 18(15): 1965-1972
Wang, Z.; Cui, Y.; Yang, C.; Yan, X. 2019: Porous Organic Nanocages CC3 and CC3–OH for Chiral Gas Chromatography. ACS Applied Nano Materials 3(1): 479-485
Zhou, B.; Liu, L.; Yang, Z.; Li, X.; Wen, Z.; Chen, L. 2018: Porous Organic Polymer Gel Derived Electrocatalysts for Efficient Oxygen Reduction. ChemElectroChem 6(2): 485-492
Wang, Z.; Yan, S.; Cui, H.; Cheng, G.; Ma, H.; Zhang, Q.; Zhang, Q.; Liu, J.; Tan, B.; Zhang, C. 2018: Porous Organic Polymer from Aggregation-Induced Emission Macrocycle for White-Light Emission. Macromolecules 51(19): 7863-7871
Ding, S.; Xu, M.; Hu, J.; Xiao, W.; Cai, J.; Zhang, N. 2018: Porous Organic Polymer-Templated Porous Copper-Ceria with Highly Dispersed Copper Oxide and Excellent Activity for CO Oxidation. Catalysis Letters 149(1): 322-327
Dai, Z.; Tang, Y.; Sun, Q.; Liu, X.; Meng, X.; Deng, F.; Xiao, F. 2018: Porous Organic Polymers Constructed from Tröger's Base as Efficient Carbon Dioxide Adsorbents and Heterogeneous Catalysts. ChemCatChem 10(8): 1900-1904
Kramer, S.; Bennedsen, N.R.; Kegnæs, S. 2018: Porous Organic Polymers Containing Active Metal Centers as Catalysts for Synthetic Organic Chemistry. ACS Catalysis 8(8): 6961-6982
Bhanja, P.; Modak, A.; Bhaumik, A. 2018: Porous Organic Polymers for CO 2 Storage and Conversion Reactions. ChemCatChem 11(1): 244-257
Cheng, Y.; Ding, X.; Han, B. 2021: Porous Organic Polymers for Photocatalytic Carbon Dioxide Reduction. ChemPhotoChem 5(5): 406-417
Wang, J.; Wang, R.; Zi, H.; Wang, H.; Xia, Y.; Liu, X. 2018: Porous Organic Zirconium Phosphonate as Efficient Catalysts for the Catalytic Transfer Hydrogenation of Ethyl Levulinate to γ-Valerolactone without External Hydrogen. Journal of the Chinese Chemical Society 65(6): 750-759
Burleigh, M.C.; Markowitz, M.A.; Spector, M.S.; Gaber, B.P. 2001: Porous Organosilicas:  An Acid-Catalyzed Approach. Langmuir 17(25): 7923-7928
Ran, J.; Ma, T.Y.; Gao, G.; Du, X.; Qiao, S.Z. 2015: Porous P-doped graphitic carbon nitride nanosheets for synergistically enhanced visible-light photocatalytic H2 production. Energy-Environmental Science 8(12): 3708-3717
Sabetzadeh, N.; Gharehaghaji, A.A.; Javanbakht, M. 2018: Porous PAN micro/nanofiber separators for enhanced lithium-ion battery performance. Solid State Ionics 325: 251-257
Mad Jin, R.; Sultana, N.; Baba, S.; Hamdan, S.; Ismail, A.F. 2015: Porous PCL/Chitosan and n HA/PCL/Chitosan Scaffolds for Tissue Engineering Applications: Fabrication and Evaluation. Journal of Nanomaterials 2015: 1-8
King, M.; Baragwanath, A.; Rosamond, M.; Wood, D.; Gallant, A. 2009: Porous PDMS force sensitive resistors. Procedia Chemistry 1(1): 568-571
Jia, Y.; Yuan, Y.; Sun, J.; Dang, L.; Liu, Z.; Lei, Z. 2020: Porous PEDOT Network Coated on Mo S2 Nanobelts toward Improving Capacitive Performance. ACS Sustainable Chemistry-Engineering 8(33): 12696-12705
Bakeri, G.; Ismail, A.; DashtArzhandi, M.R.; Matsuura, T. 2015: Porous PES and PEi hollow fiber membranes in a gas- liquid contacting process- A comparative study. Journal of Membrane Science 475: 57-64
Stewart, B.D.; Andrews, L.G.; Pelletier, B.S.; Daly Jr., C.A.; Boyd, J.E. 2015: Porous PMMA-titania composites: a step towards more sustainable photocatalysis. Journal of Water Process Engineering 8: 179-185
Teschke, O.; Costa, A.; Galembeck, F. 1983: Porous PTFE separator for high temperature water electrolyzers. Electrochimica Acta 28(3): 265-267
Gerhard-Multhaupt, R.; Kunstler, W.; Gome, T.; Pucher, A.; Weinhold, T.; Seiss, M.; Zhongfu Xia; Wedel, A.; Danz, R. 2000: Porous PTFE space-charge electrets for piezoelectric applications. IEEE Transactions on Dielectrics and Electrical Insulation 7(4): 480-488
Wang, D. 2000: Porous PVDF asymmetric hollow fiber membranes prepared with the use of small molecular additives. Journal of Membrane Science 178(1-2): 13-23
Shen, Y. 2004: Porous PVDF with Li Cl O4 complex as ?solid? and ?wet? polymer electrolyte. Solid State Ionics 175(1-4): 747-750
Kim, J.H.; Jung, H.S.; Park, C.H.; Kang, T.J. 2014: Porous PVd F-HFP/P123 electrolyte membrane containing flexible quasi-solid-state dye-sensitized solar cells produced by the compression method. Journal of Physics and Chemistry of Solids 75(1): 31-37
Zhang, Y.; Bao, Y.; Zhang, D.; Bowen, C.R. 2015: Porous PZT Ceramics with Aligned Pore Channels for Energy Harvesting Applications. Journal of the American Ceramic Society 98(10): 2980-2983
Seregin, D.; Vorotilov, K.; Sigov, A.; Kotova, N. 2015: Porous PZT Films Prepared by PVP Assisted Sol-Gel Process. Ferroelectrics 484(1): 43-48
Yin, Z.; Zheng, H.; Ma, D.; Bao, X. 2008: Porous Palladium Nanoflowers that have Enhanced Methanol Electro-Oxidation Activity. The Journal of Physical Chemistry C 113(3): 1001-1005
Carbone, M.; Mancuso, A.; Piro, P. 2014: Porous Pavement Quality Modelling. Procedia Engineering 89: 758-766
Cao, J.; Wang, F.; Yu, H.; Zhou, Y.; Lu, H.; Zhao, N.; Wong, C. 2016: Porous Pb I2 films for the fabrication of efficient, stable perovskite solar cells via sequential deposition. Journal of Materials Chemistry A 4(26): 10223-10230
Xing, X.; Cherevko, S.; Chung, C. 2011: Porous Pd films as effective ethanol oxidation electrocatalysts in alkaline medium. Materials Chemistry and Physics 126(1-2): 36-40
Shwetha, K.; Deepa, V.; Kumar, S.P.; Kumar, K.S.; Ravi, M. 2018: Porous Pellets of Tungsten Nano Powder: Investigation of Surface Porosity of Machined Surfaces. Advanced Science Letters 24(8): 5527-5531
Richardson, L. 1992: Porous Penetrative Convection with a Salt Field and Internal Heat Source. Mathematical Models and Methods in Applied Sciences 02(04): 407-421
Zhang, X.; Gong, Y.; Li, S.; Sun, C. 2017: Porous Perovskite La0.6Sr0.4Co0.8Mn0.2O3 Nanofibers Loaded with Ru O2 Nanosheets as an Efficient and Durable Bifunctional Catalyst for Rechargeable Li–O2 Batteries. ACS Catalysis 7(11): 7737-7747
Kim, J.; Chen, X.; Shih, P.; Yang, H. 2017: Porous Perovskite-Type Lanthanum Cobaltite as Electrocatalysts toward Oxygen Evolution Reaction. ACS Sustainable Chemistry-Engineering 5(11): 10910-10917
Fujihara, S.; Kitta, S.; Kimura, T. 2003: Porous Phosphor Thin Films of Oxyfluoride Si O2–Ba Mg F4: Eu2+Glass–Ceramics Prepared by Sol–Gel Method. Chemistry Letters 32(10): 928-929
Stöhr, U.; Dohse, A.; Hoppe, P.; Gehringer, A.; Thomas, M.; Klages, C.; Reinecke, H. 2009: Porous Photoresist Stamps for Selective Plasma Treatment. Plasma Processes and Polymers 7(1): 9-15
Alia, S.M.; Zhang, G.; Kisailus, D.; Li, D.; Gu, S.; Jensen, K.; Yan, Y. 2010: Porous Platinum Nanotubes for Oxygen Reduction and Methanol Oxidation Reactions. Advanced Functional Materials 20(21): 3742-3746
Cegłowski, M.; Schroeder, G.; Hoogenboom, R. 2020: Porous Poly(2-oxazoline)-Based Polymers for Removal and Quantification of Phenolic Compounds. Chemistry of Materials 32(15): 6425-6436
Zhou, W.Q.; Huang, D.L.; Ma, X.M.; Xu, J.K.; Jiang, F.X.; Lu, B.Y.; Zhu, D.H. 2014: Porous Poly(5-Cyanoindole) Electrode with High Capacitance. Advanced Materials Research 1053: 235-239
Feng, Q.; Zhao, Y.Q.; Chen, X. 2012: Porous Poly(N-Isopropylacrylamide) Gels Frontal Polymerized in Mixed Solvents of Ethanol and Dimethylsulfoxide. Advanced Materials Research 554-556: 240-243
Zhu, Y.; Yang, H.; Jin, Y.; Zhang, W. 2013: Porous Poly(aryleneethynylene) Networks through Alkyne Metathesis. Chemistry of Materials 25(18): 3718-3723
Silva Mojica, E.; Lohrasbi, M.; Chuang, S.S.C. 2014: Porous Poly(vinyl alcohol) Composite Membranes for Immobilization of Glucose Oxidase. Topics in Catalysis 57(17-20): 1490-1497
Tonda-Turo, C.; Audisio, C.; Gnavi, S.; Chiono, V.; Gentile, P.; Raimondo, S.; Geuna, S.; Perroteau, I.; Ciardelli, G. 2011: Porous Poly(ε-caprolactone) Nerve Guide Filled with Porous Gelatin Matrix for Nerve Tissue Engineering. Advanced Engineering Materials 13(5): B151-B164
Li, X.; Zhang, F.; Li, T.; Lu, Z.; Zhang, L.; Sauli, E.; He, N. 2012: Porous Polyethylene Composite as Biomass Carrier for Red Pigment Production Using Monosodium Glutamate Wastewater as Medium. Advanced Science Letters 17(1): 296-301
Ho, W.F.; Chan, H.P.; Tsvetkov, V. 2013: Porous Polyethylene Terephthalate Optical Waveguide for Sensing Applications. IEEE Photonics Technology Letters 25(17): 1672-1675
Feinberg, E.C.; Huff Chester, A.L.; Novak, P.J.; Hillmyer, M.A. 2021: Porous Polyethylene-Supported Zeolite Carriers for Improved Wastewater Deammonification. ACS ES&T Engineering 1(7): 1104-1112
Li, X.; Gao, J.; Xue, L.; Han, Y. 2010: Porous Polymer Films with Gradient-Refractive-Index Structure for Broadband and Omnidirectional Antireflection Coatings. Advanced Functional Materials 20(2): 259-265
Li, J.; Zhang, Y. 2007: Porous Polymer Films with Size-Tunable Surface Pores. Chemistry of Materials 19(10): 2581-2584
Lu, W.; Yuan, D.; Zhao, D.; Schilling, C.I.; Plietzsch, O.; Muller, T.; Bräse, S.; Guenther, J.; Blümel, J.; Krishna, R.; Li, Z.; Zhou, H. 2010: Porous Polymer Networks: Synthesis, Porosity, and Applications in Gas Storage/Separation. Chemistry of Materials 22(21): 5964-5972
Lee, S.H.; Seong, S.C.; Lee, J.H.; Han, I.K.; Oh, S.H.; Cho, K.J.; Han, H.S.; Lee, M.C. 2007: Porous Polymer Prosthesis for Meniscal Regeneration. Advanced Biomaterials VII: 33-36
Salem, A.; Rose, F.; Oreffo, R.; Yang, X.; Davies, M.; Mitchell, J.; Roberts, C.; Stolnik-Trenkic, S.; Tendler, S.; Williams, P.; Shakesheff, K. 2003: Porous Polymer and Cell Composites that Self-Assemble in Situ. Advanced Materials 15(3): 210-213
Wei, X.; Li, B.; Wang, W. 2015: Porous Polymeric Composite Separators for Redox Flow Batteries. Polymer Reviews 55(2): 247-272
Huangfu, Y.; Sun, Q.; Pan, S.; Meng, X.; Xiao, F. 2015: Porous Polymerized Organocatalysts Rationally Synthesized from the Corresponding Vinyl-Functionalized Monomers as Efficient Heterogeneous Catalysts. ACS Catalysis 5(3): 1556-1559
Hollis, O.L. 1973: Porous Polymers Used in GC and LC. Journal of Chromatographic Science 11(7): 335-342
Mandal, J.; Jia, M.; Overvig, A.; Fu, Y.; Che, E.; Yu, N.; Yang, Y. 2019: Porous Polymers with Switchable Optical Transmittance for Optical and Thermal Regulation. Joule 3(12): 3088-3099
Cooper, A. 2011: Porous Polymers. Edited by Michael S. Silverstein, Neil R. Cameron, and Marc A. Hillmyer. Angewandte Chemie International Edition 51(6): 1307-1308
Cooper, A. 2011: Porous Polymers. Herausgegeben von Michael S. Silverstein, Neil R. Cameron und Marc A. Hillmyer. Angewandte Chemie 124(6): 1333-1334
Ulbricht, M.; Yang, H. 2005: Porous Polypropylene Membranes with Different Carboxyl Polymer Brush Layers for Reversible Protein Binding via Surface-Initiated Graft Copolymerization. Chemistry of Materials 17(10): 2622-2631
Song, Y.; Bian, C.; Hu, J.; Li, Y.; Tong, J.; Sun, J.; Gao, G.; Xia, S. 2019: Porous Polypyrrole/Graphene Oxide Functionalized with Carboxyl Composite for Electrochemical Sensor of Trace Cadmium (II). Journal of The Electrochemical Society 166(2): B95-B102
Bashir, M.S.; Jiang, X.; Yang, X.; Kong, X.Z. 2021: Porous Polyurea Supported Pd Catalyst: Easy Preparation, Full Characterization, and High Activity and Reusability in Reduction of Hexavalent Chromium in Aqueous System. Industrial-Engineering Chemistry Research 60(22): 8108-8119
Bichara, D.; Zhao, X.; Bodugoz-Senturk, H.; Ong, W.; Oral, E.; Randolph, M.; Yaremchuk, M.; Muratoglu, O. 2010: Porous Polyvinyl Alcohol-Alginate Gel Hybrid Construct for Neocartilage Formation Using Human Naso-Septal Cells. Journal of Surgical Research 158(2): 319-320
Makiura, R.; Kitagawa, H. 2010: Porous Porphyrin Nanoarchitectures on Surfaces. European Journal of Inorganic Chemistry 24: 3715-3724
Du, X.; He, H.; Du, L.; Li, W.; Wang, Y.; Jiang, Q.; Yang, L.; Zhang, J.; Guo, S. 2019: Porous Pr(III)-based organic framework for dye-adsorption and photo degradation with (4,5)-c net. Polyhedron 171: 221-227
Tang, J.; Chen, J.; Huang, W.; Li, D.; Zhu, Y.; Tong, Y.; Zhang, Y. 2014: Porous Pr(OH)3 nanowires as novel high-performance adsorbents for phosphate removal. Chemical Engineering Journal 252: 202-209
Chen, Y.; Wang, X.X.; Li, B.; Huang, X.X.; Wang, J.N. 2016: Porous Pt Aggregates Deposited on a Carbon Nanotube Film with High Catalytic Activity and Durability. ChemElectroChem 3(11): 1908-1914
Laghrissi, A.; Es-Souni, M. 2019: Porous Pt Pd alloy nanotubes: towards high performance electrocatalysts with low Pt-loading. Catalysis Science-Technology 9(16): 4355-4364
Yuan, X.; Jiang, B.; Cao, M.; Zhang, C.; Liu, X.; Zhang, Q.; Lyu, F.; Gu, L.; Zhang, Q. 2020: Porous Pt nanoframes decorated with Bi(OH)3 as highly efficient and stable electrocatalyst for ethanol oxidation reaction. Nano Research 13(1): 265-272
Yao, D.; Yu, H.; Song, W.; Gao, X.; Sun, X.; Jiang, G.; Hao, J.; Shao, Z. 2021: Porous Pt-Ni Nanobelt Arrays with Superior Performance in H2/Air Atmosphere for Proton Exchange Membrane Fuel Cells. ACS Applied Energy Materials 4(10): 10703-10712
Jin, L.; Xu, H.; Chen, C.; Shang, H.; Wang, Y.; Wang, C.; Du, Y. 2020: Porous Pt–Rh–Te nanotubes: an alleviated poisoning effect for ethanol electrooxidation. Inorganic Chemistry Frontiers 7(3): 625-630
Lim, W.F.; Quah, H.J.; Hassan, Z.; Radzali, R.; Zainal, N.; Yam, F.K. 2016: Porous Quaternary Al0.1In0.1Ga0.8N Film Formation via Photoelectrochemical Etching in HF:C2H5OH Electrolyte. Journal of the American Ceramic Society 99(7): 2395-2401
Tandel, R.D.; Seetharamappa, J. 2018: Porous Reduced Graphene Oxide β-cyclodextrin Modified Electrode as Enhanced Sensing Platform for the Determination of Dihydrochalcone: Phloretin. Journal of The Electrochemical Society 165(10): H629-H637
Yue, F.; Zhang, Q.; Xu, L.; Zheng, Y.; Yao, C.; Jia, J.; Leng, W.; Hou, S. 2019: Porous Reduced Graphene Oxide/Single-Walled Carbon Nanotube Film as Freestanding and Flexible Electrode Materials for Electrosorption of Organic Dye. ACS Applied Nano Materials 2(10): 6258-6267
Huang, J.; Jin, Z.; Xu, Z.; Qin, L.; Huang, H.; Sadighi, Z.; Yao, S.; Cui, J.; Huang, B.; Kim, J. 2017: Porous Ru O2 nanosheet/CNT electrodes for DMSO-based Li-O2 and Li ion O2 batteries. Energy Storage Materials 8: 110-118
Patnaik, S.G.; Shamsudeen Seenath, J.; Bourrier, D.; Prabhudev, S.; Guay, D.; Pech, D. 2020: Porous Ru Ox Ny Sz Electrodes for Microsupercapacitors and Microbatteries with Enhanced Areal Performance. ACS Energy Letters 6(1): 131-139
Langer, S.H.; Pietsch, S.J. 1979: Porous Ruthenium Titanium Oxide Electrodes. Journal of The Electrochemical Society 126(7): 1189-1190
Shen, Z.; Cai, N.; Xue, Y.; Yu, B.; Wang, J.; Song, H.; Deng, H.; Yu, F. 2020: Porous SBA-15/cellulose membrane with prolonged anti-microbial drug release characteristics for potential wound dressing application. Cellulose 27(5): 2737-2756
Wei, L.; Hou, Z.; Wei, H. 2017: Porous Sandwiched Graphene/Silicon Anodes for Lithium Storage. Electrochimica Acta 229: 445-451
McQuillen, J.B.; Chato, D.J.; Motil, B.J.; Doherty, M.P.; Chao, D.F.; Zhang, N. 2012: Porous Screen Applied in Liquid Acquisition Device Channel and Cfd Simulation of Flow in the Channel. Journal of Porous Media 15(5): 429-437
Du, Y.Y.; Fang, H.H.; Zheng, P.W. 2013: Porous Sepiolite/Starch Composites:Preparation, Structure and Absorption Properties. Advanced Materials Research 634-638: 1937-1942
Yang, J.; Swager, T.M. 1998: Porous Shape Persistent Fluorescent Polymer Films:  An Approach to TNT Sensory Materials. Journal of the American Chemical Society 120(21): 5321-5322
Gülnahar, M.; Karacali, T.; Efeoğlu, H. 2015: Porous Si Based Al Schottky Structures on p+-Si: a Possible way for Nano Schottky Fabrication. Electrochimica Acta 168: 41-49
Wang, F.; Yin, J.; Yao, D.; Xia, Y.; Zuo, K.; Zeng, Y. 2017: Porous Si C ceramics fabricated by quick freeze casting and solid state sintering. Progress in Natural Science: Materials International 27(3): 380-384
Wang, F.; Yao, D.; Xia, Y.; Zuo, K.; Xu, J.; Zeng, Y. 2016: Porous Si C ceramics prepared via freeze-casting and solid state sintering. Ceramics International 42(3): 4526-4531
Xue, F.; Zhou, K.; Wu, N.; Luo, H.; Wang, X.; Zhou, X.; Yan, Z.; Abrahams, I.; Zhang, D. 2018: Porous Si C ceramics with dendritic pore structures by freeze casting from chemical cross-linked polycarbosilane. Ceramics International 44(6): 6293-6299
Liu, H.; She, G.; Mu, L.; Shi, W. 2012: Porous Si C nanowire arrays as stable photocatalyst for water splitting under UV irradiation. Materials Research Bulletin 47(3): 917-920
Zou, J.; Xiong, H.; Huang, Y.; Wang, Z.; Wen, J.; Du, W.; Cao, J. 2021: Porous Si C using polycarbosilane/camphene solutions: Roles of freeze casting parameters. Ceramics International 47(19): 27386-27394
Xing, Z.; Hu, Y.; Xiang, D.; Ma, Y. 2020: Porous Si C-mullite ceramics with high flexural strength and gas permeability prepared from photovoltaic silicon waste. Ceramics International 46(1): 1236-1242
Li, J.; Yuan, W.; Deng, C.; Zhu, H. 2017: Porous Si C/Si CN composite ceramics fabricated by foaming and reaction sintering. Journal of the European Ceramic Society 37(3): 1131-1134
Han, D.; Mei, H.; Xiao, S.; Xia, J.; Gu, J.; Cheng, L. 2017: Porous Si Cnw/Si C ceramics with unidirectionally aligned channels produced by freeze-drying and chemical vapor infiltration. Journal of the European Ceramic Society 37(3): 915-921
Yin, S.; Mao, D.; Pan, L.; Fang, X.; Wang, Y.; Qiu, T.; Yang, J. 2021: Porous Si C–Si3N4 composite ceramics with excellent EMW absorption property prepared by gelcasting using DMAA. Ceramics International 47(19): 27058-27070
Chen, Y.; Liu, L.; Xiong, J.; Yang, T.; Qin, Y.; Yan, C. 2015: Porous Si Nanowires from Cheap Metallurgical Silicon Stabilized by a Surface Oxide Layer for Lithium Ion Batteries. Advanced Functional Materials 25(43): 6701-6709
Song, Q.S.; Zhang, K.; Xu, S.; Zhong, Z.B.; Li, M. 2011: Porous Si O2/Si C Fiber Via Carbothermal-Reduction of Hybrid Fiber in Air Flows. Advanced Materials Research 236-238: 1492-1496
Chen, R.Y.; Wang, J.W.; Wang, H.N.; Yao, W.; Zhong, J. 2011: Porous Si O2/Ti O2 Bilayer Antireflection Coatings with Self-Cleaning Capacity. Advanced Materials Research 233-235: 2970-2974
Hwang, Y.; Riu, D.; Kim, K.; Chang, C. 2014: Porous Si OC beads by freeze-drying polycarbosilane emulsions. Materials Letters 131: 174-177
Rau, A.V.; Knott, K.; Lu, K. 2021: Porous Si OC/Si C ceramics via an active-filler-catalyzed polymer-derived method. Materials Chemistry Frontiers 5(17): 6530-6545
Possémé, N.; David, T.; Chevolleau, T.; Darnon, M.; Brun, P.; Guillermet, M.; Oddou, J.P.; Barnola, S.; Bailly, F.; Bouyssou, R.; Ducote, J.; Hurand, R.; Vérove, C.; Joubert, O. 2019: Porous Si OCH Integration: Etch Challenges with a Trench first Metal Hard Mask Approach. ECS Transactions 34(1): 389-394
El Sabahy, J.; Castellan, G.; Ricoul, F.; Jousseaume, V. 2016: Porous Si OCH Thin Films Obtained by Foaming. The Journal of Physical Chemistry C 120(17): 9184-9191
Kovalev, D.; Chorin, M.B.; Diener, J.; Koch, F.; Efros, A.L.; Rosen, M.; Gippius, N.A.; Tikhodeev, S.G. 1995: Porous Si anisotropy from photoluminescence polarization. Applied Physics Letters 67(11): 1585-1587
Yue, L.; Zhong, H.; Tang, D.; Zhang, L. 2012: Porous Si coated with S-doped carbon as anode material for lithium ion batteries. Journal of Solid State Electrochemistry 17(4): 961-968
Wang, H.; Wu, P.; Shi, H.; Lou, F.; Tang, Y.; Zhou, T.; Zhou, Y.; Lu, T. 2014: Porous Si spheres encapsulated in carbon shells with enhanced anodic performance in lithium-ion batteries. Materials Research Bulletin 55: 71-77
Chuah, L.; Hassan, Z.; Ng, S.; Abu Hassan, H. 2009: Porous Si(111) and Si(100) as an intermediate buffer layer for nanocrystalline in N films. Journal of Alloys and Compounds 479(1-2): L54-L58
Deng, B.; Shen, L.; Liu, Y.; Yang, T.; Zhang, M.; Liu, R.; Huang, Z.; Fang, M.; Wu, X. 2017: Porous Si/C composite as anode materials for high-performance rechargeable lithium-ion battery. Chinese Chemical Letters 28(12): 2281-2284
Tao, H.; Xiong, L.; Zhu, S.; Zhang, L.; Yang, X. 2017: Porous Si/C/reduced graphene oxide microspheres by spray drying as anode for Li-ion batteries. Journal of Electroanalytical Chemistry 797: 16-22
Kenawy, S.; Awaad, M.; Naga, S.; Windsheimer, H.; Greil, P. 2008: Porous Si/Si C Composite Based on Nonwoven Cellulosic Fabrics: Synthesis and Characterization. International Journal of Applied Ceramic Technology 5(6): 618-623
Bang, J.H.; Choi, M.S.; Mirzaei, A.; Oum, W.; Han, S.; Kim, S.S.; Kim, H.W. 2020: Porous Si/Sn O2 nanowires heterostructures for H2S gas sensing. Ceramics International 46(1): 604-611
Li, L.; Wang, H.; Su, S. 2015: Porous Si3N4 Ceramics Prepared by TBA-based Gel-casting. Journal of Materials Science-Technology 31(3): 295-299
Wang, F.; Gu, H.; Yin, J.; Yao, D.; Xia, Y.; Zuo, K.; Liang, H.; Ning, C.; Zeng, Y. 2017: Porous Si3N4 ceramics fabricated through a modified incomplete gelcasting and freeze-drying method. Ceramics International 43(17): 14678-14682
Yao, D.; Xia, Y.; Zuo, K.; Jiang, D.; Günster, J.; Zeng, Y.; Heinrich, J.G. 2013: Porous Si3N4 ceramics prepared via partial nitridation and SHS. Journal of the European Ceramic Society 33(2): 371-374
Yao, D.; Xia, Y.; Zeng, Y.; Zuo, K.; Jiang, D. 2011: Porous Si3N4 ceramics prepared via slip casting of Si and reaction bonded silicon nitride. Ceramics International 37(8): 3071-3076
Yin, S.; Pan, L.; Huang, K.; Qiu, T.; Yang, J. 2019: Porous Si3N4 ceramics with hierarchical pore structures prepared by gelcasting using DMAA as gelling agent and PS as pore–forming agent. Journal of Alloys and Compounds 805: 69-77
Wang, F.; Gu, H.; Yin, J.; Xia, Y.; Zuo, K.; Liang, H.; Ning, C.; Yao, D.; Zeng, Y. 2017: Porous Si3N4 fabrication via volume-controlled foaming and their sound absorption properties. Journal of Alloys and Compounds 727: 163-167
Zhang, X.; Huo, W.; Lu, Y.; Gan, K.; Yan, S.; Liu, J.; Yang, J. 2018: Porous Si3N4-based ceramics with uniform pore structure originated from single-shell hollow microspheres. Journal of Materials Science 54(6): 4484-4494
Li, Y.; Li, L.; Sun, W.; Chen, C.; Luo, S.; Shen, J.; Jiang, C.; Jing, F. 2021: Porous Silica Coated Ceria as a Switch in Tandem Oxidative Dehydrogenation and Dry Reforming of Ethane with CO 2. ChemCatChem 13(15): 3501-3509
Azzouz, I.; Lerari, D.; Bachari, K. 2020: Porous Silica Monolithic Polymers for Micromachined Gas Chromatography Columns: a Featured Phase for Fast and Efficient Separations of Light Compounds Mixtures. IEEE Sensors Journal 20(22): 13236-13244
Chen, H.; He, J.; Tang, H.; Yan, C. 2008: Porous Silica Nanocapsules and Nanospheres: Dynamic Self-Assembly Synthesis and Application in Controlled Release. Chemistry of Materials 20(18): 5894-5900
Jin, Y.G.; Qiao, S.Z.; Xu, Z.P.; Diniz da Costa, J.C.; Lu, G.Q. 2009: Porous Silica Nanospheres Functionalized with Phosphonic Acid as Intermediate-Temperature Proton Conductors. The Journal of Physical Chemistry C 113(8): 3157-3163
Syme, D.B.; Lund, J.M.; Jensen, B.D.; Davis, R.C.; Vanfleet, R.R.; Iverson, B.D. 2020: Porous Silica Nanotube Thin Films as Thermally Insulating Barrier Coatings. ACS Applied Nano Materials 3(4): 3168-3173
Motaweh, H.; Nabil, M. 2019: Porous Silica for Removing Organic Impurities from Wastewater. ATHENS JOURNAL OF SCIENCES 6(4): 253-264
Pires, J.; Borges, S.; Carvalho, A.P.; Silva, A.R. 2010: Porous Silicas and Respective Carbon Replicates for Adsorption and Catalysis. Adsorption Science-Technology 28(8-9): 717-726
Geserick, J.; Meyer, S.; Puchberger, M.; Pabisch, S.; Peterlik, H.; Bethge, O.; Bertagnolli, E.; Schubert, U. 2012: Porous Silica‐Based Mixed Oxides with Basic Organic Sites. European Journal of Inorganic Chemistry 32: 5207-5215
Mizuta, M. 1993: Porous Silicon - new Luminescent Material or Luminescent Defect?. Acta Physica Polonica A 84(4): 609-620
Jaguiro, P.; Katsuba, P.; Lazarouk, S.; Smirnov, A. 2007: Porous Silicon Avalanche LEDs and their Applications in Optoelectronics and Information Displays. Acta Physica Polonica A 112(5): 1031-1036
Kayahan, E. 2015: Porous Silicon Based Humidity Sensor. Acta Physica Polonica A 127(4): 1397-1399
Ko, P.J.; Ishikawa, R.; Takamura, T.; Sohn, H.; Sandhu, A. 2012: Porous Silicon Based Protocol for the Rapid and Real-Time Monitoring of Biorecognition Between Human Ig G and Protein a Using Functionalized Superparamagnetic Beads. IEEE Transactions on Magnetics 48(11): 2846-2849
Keshavarzi, S.; Kovacs, A.; Abdo, M.; Badilita, V.; Zhu, R.; Korvink, J.G.; Mescheder, U. 2019: Porous Silicon Based Rugate Filter Wheel for Multispectral Imaging Applications. ECS Journal of Solid State Science and Technology 8(3): Q43-Q49
Islam, T.; Saha, H.; Islam, S.S. 2009: Porous Silicon Based Sensor Array for Ethanol Sensing. Sensor Letters 7(6): 1077-1085
Kayahan, E.; Bahsi, Z.; Oral, A.; Sezer, M. 2015: Porous Silicon Based Sensor for Organic Vapors. Acta Physica Polonica A 127(4): 1400-1402
Zhang, Y.; Lv, X.Y.; Zhang, H.Y.; Jiang, T.; Ma, J.; Jia, Z.H. 2012: Porous Silicon Biosensor for the Detection of Transgenic Cotton of Antifeezing Protein. Advanced Materials Research 485: 288-292
Zhang, L.; Coffer, J.L.; Wang, J.; Gutsche, C.D.; Chen, J.; Chyan, O. 1996: Porous Silicon Coated with Calixarene Carboxylic Acid Derivatives:  Effects on Luminescence Quenching Selectivity. Journal of the American Chemical Society 118(50): 12840-12841
Recio-Sánchez, G.; Manso, M.; Torres-Costa, V.; Gallach, D.; Martín-Palma, R.J. 2010: Porous Silicon Devices for the Electrical Biosensing of Escherichia Coli. Sensor Letters 8(3): 387-391
Wolkin, M.; Chan, S.; Fauchet, P. 2000: Porous Silicon Encapsulated Nematic Liquid Crystals for Electro-Optic Applications. Physica status solidi (a) 182(1): 573-578
Yang, X.; Xi, F.; Chen, X.; Li, S.; Wan, X.; Ma, W.; Dong, P.; Duan, J.; Chang, Y. 2020: Porous Silicon Fabrication and Surface Cracking Behavior Research Based on Anodic Electrochemical Etching ▴. Fuel Cells 21(1): 52-57
Sweetman, M.J.; Ronci, M.; Ghaemi, S.R.; Craig, J.E.; Voelcker, N.H. 2012: Porous Silicon Films Micropatterned with Bioelements as Supports for Mammalian Cells. Advanced Functional Materials 22(6): 1158-1166
Joshi, M.; Hu, S.J.; Goorsky, M.S. 2019: Porous Silicon Films for Thin Film Layer Transfer Applications and Wafer Bonding. ECS Transactions 33(4): 195-206
Lipinski, M.; Cichoszewski, J.; Socha, R.; Piotrowski, T. 2009: Porous Silicon Formation by Metal-Assisted Chemical Etching. Acta Physica Polonica A 116(Supplement): S117-S119
Ozdemir, S.; Gole, J.L. 2019: Porous Silicon Gas Sensors for Room Temperature Detection of Ammonia and Phosphine. ECS Transactions 16(11): 379-385
Huanca, D.R.; Salcedo, W.J. 2019: Porous Silicon Heterostructures for Refractometer Device Application. ECS Transactions 23(1): 499-506
Jang, S.; Koh, Y.; Kim, J.; Jung, K.; Sohn, H. 2009: Porous Silicon Interferometric Sensors for the Detection of Nerve Agent Mimics Using Various Light Sources. Journal of the Korean Physical Society 55(1): 294-298
Kozak, D.A.; Stievater, T.H.; Pruessner, M.W.; Nierenberg, K.; Rabinovich, W.S. 2014: Porous Silicon MEMS Infrared Filters for Micromechanical Photothermal Spectroscopy. ECS Transactions 64(1): 197-203
Mulloni, V.; Gaburro, Z.; Pavesi, L. 2000: Porous Silicon Microcavities as Optical and Electrical Chemical Sensors. Physica status solidi (a) 182(1): 479-484
Chan, S.; Fauchet, P.; Li, Y.; Rothberg, L.; Miller, B. 2000: Porous Silicon Microcavities for Biosensing Applications. Physica status solidi (a) 182(1): 541-546
Dovzhenko, D.; Osipov, E.; Martynov, I.; Samokhvalov, P.; Eremin, I.; Kotkovskii, G.; Chistyakov, A. 2016: Porous Silicon Microcavity Modulates the Photoluminescence Spectra of Organic Polymers and Quantum Dots. Materials Today: Proceedings 3(2): 485-490
Kumari, V.; Gulati, P.; Mishra, P.; Islam, S.S. 2014: Porous Silicon Myoglobin Immunosensor. Advanced Science Letters 20(7): 1574-1577
Alhmoud, H.; Delalat, B.; Elnathan, R.; Cifuentes-Rius, A.; Chaix, A.; Rogers, M.; Durand, J.; Voelcker, N.H. 2014: Porous Silicon Nanodiscs for Targeted Drug Delivery. Advanced Functional Materials 25(7): 1137-1145
Chiappini, C.; De Rosa, E.; Martinez, J.O.; Campagnolo, P.; Almeida, C.; Tasciotti, E.; Stevens, M. 2015: Porous Silicon Nanoneedles by Metal Assisted Chemical Etch for Intracellular Sensing and Delivery. ECS Transactions 69(2): 63-68
Márquez, J.; De la Cruz-Guzmán, M.; Cházaro, L.; Palestino, G. 2016: Porous Silicon Nanostructured Materials for Sensing Applications: Molecular Assembling and Electrochemical or Optical Evaluation. MRS Proceedings 1812: 77-82
Gao, F.; Wang, C.H.; Li, L.; Chen, D.Q.; Zhai, P.; Wei, Q.H.; Wang, H.S. 2010: Porous Silicon Nitride Microwave Transparent Material with Compounded Component Pore Former. Advanced Materials Research 105-106: 612-615
Weiss, S.M.; Fauchet, P.M. 2006: Porous Silicon One-Dimensional Photonic Crystals for Optical Signal Modulation. IEEE Journal of Selected Topics in Quantum Electronics 12(6): 1514-1519
Prasad, A.; Balakrishnan, S.; Jain, S.K.; Jain, G.C. 1982: Porous Silicon Oxide Anti‐Reflection Coating for Solar Cells. Journal of The Electrochemical Society 129(3): 596-599
Meade, S.O.; Yoon, M.S.; Ahn, K.H.; Sailor, M.J. 2004: Porous Silicon Photonic Crystals as Encoded Microcarriers. Advanced Materials 16(20): 1811-1814
Uehara, S.; Taira, K.; Hashimoto, T.; Sasabu, H.; Matsubara, T. 2000: Porous Silicon Refractive Index Lattices. Physica status solidi (a) 182(1): 443-446
Krismastuti, F.S.H.; Pace, S.; Voelcker, N.H. 2014: Porous Silicon Resonant Microcavity Biosensor for Matrix Metalloproteinase Detection. Advanced Functional Materials 24(23): 3639-3650
Weiss, S.M.; Rong, G. 2009: Porous Silicon Waveguides for Small Molecule Detection. ACS Symposium Series: 185-194
Severiano, F.; García, G.; Castañeda, L.; Gayou, V.L. 2017: Porous Silicon and Indium Doped Zinc Oxide Junctions: Synthesis, Characterization, and Application to Electroluminescent Devices. Journal of Nanomaterials 2017: 1-8
Miele, E.; Goriparti, S.; Messina, G.C.; Prato, M.; Ansaldo, A.; Barone, A.; DeAngelis, F.; Zaccaria, R.P.; Capiglia, C. 2014: Porous Silicon as Nanostructured Anode Material for Lithium Ion Batteries. ECS Transactions 62(1): 25-34
Stolyarova, S.; Nemirovsky, Y. 2019: Porous Silicon as a Nanostructured Template for Enhanced Immobilization and Crystallization of Inorganic and Biomaterials. ECS Transactions 33(16): 137-145
Nagayama, G.; Idera, N.; Tsuruta, T.; Yu, J.; Takahashi, K.; Hori, M. 2005: Porous Silicon as a Proton Exchange Membrane for Micro Fuel Cells. Electrochemistry 73(11): 939-941
Nassiopoulou, A.; Kaltsas, G. 2000: Porous Silicon as an Effective Material for Thermal Isolation on Bulk Crystalline Silicon. Physica status solidi (a) 182(1): 307-311
Kan, P Y Y.; Finstad, T G.; Kristiansen, H.; Foss, S E. 2004: Porous Silicon for Chip Cooling Applications. Physica Scripta T 114: 77-79
Gautier, G.; Defforge, T.; Desplobain, S.; Billoue, J.; Capelle, M.; Poveda, P.; Vanga, K.; Lu, B.; Bardet, B.; Lascaud, J.; Seck, C.; Fevre, A.; Menard, S.; Ventura, L. 2015: Porous Silicon in Microelectronics: from Academic Studies to Industry. ECS Transactions 69(2): 123-134
Fellah, S.; Ozanam, F.; Gabouze, N.; Chazalviel, J. 2000: Porous Silicon in Solvents: Constant-Lifetime PL Quenching and Confirmation of Dielectric Effects. Physica status solidi (a) 182(1): 367-372
Givant, A.; Shappir, J.; Sa'ar, A. 2000: Porous Silicon on Insulator: a new Approach to Fabricate Porous Silicon Based Optoelectronic Devices. Physica status solidi (a) 182(1): 419-424
Rumpf, K.; Granitzer, P.; Tian, Y.; Coffer, J.; Akkaraju, G.; Poelt, P.; Michor, H. 2014: Porous Silicon with Deposited Iron Oxide as Vehicle for Magnetically Guided Drug Delivery. ECS Transactions 58(32): 133-137
Yogi, P.; Saxena, S.K.; Chaudhary, A.; Pathak, D.K.; Mishra, S.; Mondal, P.; Joshi, B.; Sagdeo, P.R.; Kumar, R. 2018: Porous Silicon's fractal nature revisited. Superlattices and Microstructures 120: 141-147
Dzhafarov, T.; Yuksel, S.A.; Lus, C.O. 2008: Porous Silicon-Based Gas Sensors and Miniature Hydrogen Cells. Japanese Journal of Applied Physics 47(10): 8204-8207
Ruminski, A.M.; King, B.H.; Salonen, J.; Snyder, J.L.; Sailor, M.J. 2010: Porous Silicon-Based Optical Microsensors for Volatile Organic Analytes: Effect of Surface Chemistry on Stability and Specificity. Advanced Functional Materials 20(17): 2874-2883
Granitzer, P.; Rumpf, K.; Reissner, M.; Morales, M.P.; Poelt, P.; Uusimäki, T.; Albu, M. 2019: Porous Silicon/Iron Oxide Nanocomposites with Deposition Dependent Magnetic Properties. ECS Transactions 41(35): 67-72
Capelle, M.; Billoue, J.; Poveda, P.; Gautier, G. 2015: Porous Silicon/Silicon Hybrid Substrate Applied to the Monolithic Integration of Common-Mode and Bandpass RF Filters. IEEE Transactions on Electron Devices 62(12): 4169-4173
Yakovtseva, V.; Vorozov, N.; Dolgyi, L.; Levchenko, V.; Postnova, L.; Balucani, M.; Bondarenko, V.; Lamedica, G.; Ferrara, V.; Ferrari, A. 2000: Porous Silicon: a Buffer Layer for Pb S Heteroepitaxy. Physica status solidi (a) 182(1): 195-199
Collins, R.T.; Fauchet, P.M.; Tischler, M.A. 1997: Porous Silicon: from Luminescence to LEDs. Physics Today 50(1): 24-31
Granitzer, P.; Rumpf, K. 2010: Porous Silicon- A Versatile Host Material. Materials 3(2): 943-998
Kiang, Y.; Gardner, G.B.; Lee, S.; Xu, Z. 2000: Porous Siloxane Linked Phenylacetylene Nitrile Silver Salts from Solid State Dimerization and Low Polymerization. Journal of the American Chemical Society 122(29): 6871-6883
Sisk, C.N.; Gill, S.K.; Hope-Weeks, L.J. 2006: Porous Silver Monolith Formation Using a Hydrogel Template. Chemistry Letters 35(7): 814-815
Perumal Veeramalai, C.; Yang, S.; Wei, J.; Sulaman, M.; Zhi, R.; Saleem, M.I.; Tang, Y.; Jiang, Y.; Zou, B. 2019: Porous Single-Wall Carbon Nanotube Templates Decorated with All-inorganic Perovskite Nanocrystals for Ultraflexible Photodetectors. ACS Applied Nano Materials 3(1): 459-467
Shirai, M.; Aoki, K.; Minato, Y.; Torii, K.; Arai, M. 2000: Porous Smectite-type Materials Containing Catalytically Active Divalent Cations in Octahedral Sheets. Nanoporous Materials II, Proceedings of the 2nd Conference on Access in Nanoporous Materials: 435-442
Hu, Y.; Mei, T.; Li, J.; Wang, J.; Wang, X. 2017: Porous Sn O2 hexagonal prism-attached Pd/r GO with enhanced electrocatalytic activity for methanol oxidation. RSC Advances 7(47): 29909-29915
Li, H.; Su, Q.; Kang, J.; Huang, M.; Feng, M.; Feng, H.; Huang, P.; Du, G. 2018: Porous Sn O2 hollow microspheres as anodes for high-performance lithium ion battery. Materials Letters 217: 276-280
Wei, W.; Gao, S.; Yang, Z.; Wu, Y.; Chen, C.; Guo, L.; Li, J. 2014: Porous Sn O2 nanocubes with controllable pore volume and their Li storage performance. RSC Adv. 4(26): 13250-13255
Wang, Q.; Wang, D.; Wu, M.; Liu, B.; Chen, J.; Wang, T.; Chen, J. 2011: Porous Sn O2 nanoflakes with loose-packed structure: Morphology conserved transformation from Sn S2 precursor and application in lithium ion batteries and gas sensors. Journal of Physics and Chemistry of Solids 72(6): 630-636
Li, F.; Chen, Y.; Ma, J. 2014: Porous Sn O2 nanoplates for highly sensitive NO detection. J. Mater. Chem. A 2(20): 7175-7178
Cheong, J.Y.; Kim, C.; Jung, J.; Yoon, K.R.; Kim, I. 2018: Porous Sn O2-Cu O nanotubes for highly reversible lithium storage. Journal of Power Sources 373: 11-19
Dhanabalan, A.; Yu, Y.; Li, X.; Chen, W.; Bechtold, K.; Gu, L.; Wang, C. 2010: Porous Sn O2/CNT composite anodes: Influence of composition and deposition temperature on the electrochemical performance. Journal of Materials Research 25(8): 1554-1560
Lu, Z.; Kong, Z.; Jing, L.; Wang, T.; Liu, X.; Fu, A.; Guo, P.; Guo, Y.; Li, H. 2020: Porous Sn O2/Graphene Composites as Anode Materials for Lithium-Ion Batteries: Morphology Control and Performance Improvement. Energy-Fuels 34(10): 13126-13136
Ginkin, V.P. 2005: Porous Solid Model to Describe Heat-Mass Transfer near Phase Transition Interface in Crystal Growth from Melt Simulations. Journal of Porous Media 8(4): 347-354
Ruckart, K.N.; O'Brien, R.A.; Woodard, S.M.; West, K.N.; Glover, T.G. 2015: Porous Solids Impregnated with Task-Specific Ionic Liquids as Composite Sorbents. The Journal of Physical Chemistry C 119(35): 20681-20697
Subramanian, S.; Zaworotko, M.J. 1995: Porous Solids by Design:[Zn(4,4′-bpy)2(Si F6)]n·x DMF, a Single Framework Octahedral Coordination Polymer with Large Square Channels. Angewandte Chemie International Edition in English 34(19): 2127-2129
Xiao, W.; Chen, J.S.; Lu, Q.; Lou, X.W. 2010: Porous Spheres Assembled from Polythiophene (PTh)-Coated Ultrathin Mn O2 Nanosheets with Enhanced Lithium Storage Capabilities. The Journal of Physical Chemistry C 114(27): 12048-12051
Satas, D. 1965: Porous Sprayed Sheets and Coatings. Industrial-Engineering Chemistry 57(4): 38-42
Dong, W.; Li, X.; Yu, J.; Guo, W.; Li, B.; Tan, L.; Li, C.; Shi, J.; Wang, G. 2012: Porous Sr Ti O3 spheres with enhanced photocatalytic performance. Materials Letters 67(1): 131-134
Hu, X.; Yu, J.C. 2009: Porous Sr2Cu WO6Nanoarchitectures Fabricated by a Matrix-mediated Route. Chemistry Letters 38(4): 320-321
Wang, F.; Zhong, G.; Luo, S.; Xia, L.; Fang, L.; Song, X.; Hao, X.; Yan, G. 2015: Porous Sr2Mg Mo1−x Vx O6−d ceramics as anode materials for SOFCs using biogas fuel. Catalysis Communications 67: 108-111
Wang, Y.; Arns, C.H.; Rahman, S.S.; Arns, J. 2018: Porous Structure Reconstruction Using Convolutional Neural Networks. Mathematical Geosciences 50(7): 781-799
Collet, F.; Bart, M.; Serres, L.; Miriel, J. 2010: Porous Structure and Hydric Properties of Cob. Journal of Porous Media 13(2): 111-124
Fott, P.; Kolář, F.; Weishauptová, Z. 1995: Porous Structure and Transport Properties of a Carbonized Phenolic Resin. Collection of Czechoslovak Chemical Communications 60(2): 172-187
Rios, J.D.; Arenas, C.; Cifuentes, H.; Peceño, B.; Leiva, C. 2019: Porous Structure by X-Ray Computed Tomography and Sound Absorption in Pervious Concretes with Air Cooled Blast Furnace Slag as Coarse Aggregate. Acoustics Australia 47(3): 271-276
DeBaun, R.M.; Adler, S.F.; Fink, R.D. 1962: Porous Structure of Catalyst Materials. Journal of Chemical-Engineering Data 7(1): 94-97
Kartel, N.; Puzy, A.; Strelko, V. 1991: Porous Structure of Synthetic Active Carbons. Characterization of Porous Solids II, Proceedings of the IUPAC Symposium (COPS 11: 439-447
Shi, K.; Yao, H.; Zhang, S.; Wei, Y.; Xu, W.; Song, N.; Zhu, S.; Tian, Y.; Zou, Y.; Guan, S. 2019: Porous Structure, Carbon Dioxide Capture, and Separation in Cross-Linked Porphyrin-Based Polyimides Networks. Industrial-Engineering Chemistry Research 58(31): 14146-14153
Duran, E.C.; Kizil, H. 2017: Porous Structured Sn O 2 Nanofibers and Nanotubes as Anode Materials for Sodium-Ion Batteries. ECS Transactions 77(11): 353-363
Liu, Z.; Wang, J.; Wu, Y.; Xiao, X.; Zhang, Y.; Wang, X. 2018: Porous Structures on Titanium Surfaces: Biocompatibility and Effects on Osteogenic Activity in Vitro. Journal of Biomaterials and Tissue Engineering 8(3): 438-447
Pascual-Colino, J.; Beobide, G.; Castillo, O.; da Silva, I.; Luque, A.; Pérez-Yáñez, S. 2018: Porous Supramolecular Architectures Based on π-Stacking Interactions between Discrete Metal-Adenine Entities and the Non-DNA Theobromine/Caffeine Nucleobases. Crystal Growth-Design 18(6): 3465-3476
Hidalgo, N.; Calvo, M.E.; Bellino, M.G.; Soler-Illia, G.J.A.A.; Míguez, H. 2011: Porous Supramolecularly Templated Optical Resonators Built in 1D Photonic Crystals. Advanced Functional Materials 21(13): 2534-2540
Jakubowicz, J.; Adamek, G.; Smardz, L. 2021: Porous Surface State Analysis of Anodized Titanium for Biomedical Applications. Metallurgical and Materials Transactions A 53(1): 86-94
Griseri, M.; Biggemann, J.; Ramos, J.P.; Li, G.; Dams, O.; Popescu, L.; Vleugels, J.; Fey, T.; Lambrinou, K. 2021: Porous Ta Cx ISOL target materials from mould-casted Ta4Al C3. Journal of the European Ceramic Society 41(7): 3947-3959
Higashi, M.; Tomita, O.; Abe, R. 2016: Porous Ta ON Photoanodes Loaded with Cobalt-Based Cocatalysts for Efficient and Stable Water Oxidation Under Visible Light. Topics in Catalysis 59(8-9): 740-749
Maury, S.; Buisson, P.; Pierre, A.C. 2001: Porous Texture Modification of Silica Aerogels in Liquid Media and its Effect on the Activity of a Lipase. Langmuir 17(21): 6443-6446
Nickolov, R.N.; Donkova, B.V.; Milenova, K.I.; Mehandjiev, D.R. 2006: Porous Texture of Cu O Prepared from Copper Oxalate Precursor. Adsorption Science-Technology 24(6): 497-506
Feng, J.; Wang, W.; Huang, S.; Jiang, B.; Zhu, B.; Zhou, Y.; Cui, J.; Lin, P.; Xie, L.; He, J. 2020: Porous Thermoelectric Zintl: Yb Cd2Sb2. ACS Applied Energy Materials 4(1): 913-920
Yang, Q.; Nicholas, J.D. 2014: Porous Thick Film Lanthanum Strontium Ferrite Stress and Oxygen Surface Exchange Bilayer Curvature Relaxation Measurements. Journal of The Electrochemical Society 161(11): F3025-F3031
Kirkland, J.J. 1965: Porous Thin-Layer Modified Glass Bead Supports for Gas Liquid Chromatography. Analytical Chemistry 37(12): 1458-1461
Choi, S.M.; Singh, D.; Kumar, A.; Oh, T.H.; Cho, Y.W.; Han, S.S. 2013: Porous Three-Dimensional PVA/Gelatin Sponge for Skin Tissue Engineering. International Journal of Polymeric Materials 62(7): 384-389
Peng, Q.; Yang, B.; Liu, L.; Song, C.; Friedrich, B. 2016: Porous Ti Al alloys fabricated by sintering of Ti H 2 and Al powder mixtures. Journal of Alloys and Compounds 656: 530-538
Jiao, X.; Ren, X.; Wang, X.; Wang, S.; Feng, P.; Wang, J. 2018: Porous Ti Al3 intermetallics with symmetrical graded pore-structure fabricated by leaching space holder and thermal explosion process. Intermetallics 95: 144-149
Guo, X.; Zhang, G.; Cui, H.; Wei, N.; Song, X.; Li, J.; Tian, J. 2017: Porous Ti B2-Ti C/Ti O2 heterostructures: Synthesis and enhanced photocatalytic properties from nanosheets to sweetened rolls. Applied Catalysis B: Environmental 217: 12-20
Cheng, Q.; Liang, J.; Lin, N.; Guo, C.; Zhu, Y.; Qian, Y. 2015: Porous Ti Nb2O7 Nanospheres as ultra Long-life and High-power Anodes for Lithium-ion Batteries. Electrochimica Acta 176: 456-462
Park, H.; Song, T.; Paik, U. 2015: Porous Ti Nb2O7 nanofibers decorated with conductive Ti1−x Nbx N bumps as a high power anode material for Li-ion batteries. Journal of Materials Chemistry A 3(16): 8590-8596
Chung, C.; Chu, C.; Wang, S. 2004: Porous Ti Ni shape memory alloy with high strength fabricated by self-propagating high-temperature synthesis. Materials Letters 58(11): 1683-1686
S.V, G.; G.Ts, D.; T.L, C.; J-H, K.; J-S, K.; V.E, G. 2016: Porous Ti Ni-based Material and Infrared Radiation in Needle-free Treatment of Diabetic Patients. Advanced Materials Letters 7(9): 713-718
Yan, L.; Xu, Y.; Zhou, M.; Chen, G.; Deng, S.; Smirnov, S.; Luo, H.; Zou, G. 2015: Porous Ti O2 Conformal Coating on Carbon Nanotubes as Energy Storage Materials. Electrochimica Acta 169: 73-81
Zhang, W.J.; Li, K.X. 2011: Porous Ti O2 Film Electrode Used for Photoelectrocatalytic Degradation of Methyl Orange in Na HCO3 Solution. Advanced Materials Research 230-232: 126-130
Zhang, W.J.; Yang, B.; He, H.B. 2011: Porous Ti O2 Films Prepared by Sol-Gel Method Using Different Kinds of Templates. Advanced Materials Research 382: 344-347
Zheng, L.; Cheng, H.; Liang, F.; Shu, S.; Tsang, C.K.; Li, H.; Lee, S.; Li, Y.Y. 2012: Porous Ti O2 Photonic Band Gap Materials by Anodization. The Journal of Physical Chemistry C 116(9): 5509-5515
Wang, W.; Bu, F.; Jiang, J. 2015: Porous Ti O2 coated α-Fe2O3 ginger-like nanostructures with enhanced electrochemical properties. Materials Letters 139: 89-92
Chen, X.; Huang, Y.; Zhang, K.; Feng, X.; Wang, M. 2018: Porous Ti O2 nanobelts coated with mixed transition-metal oxides Sn3O4 nanosheets core-shell composites as high-performance anode materials of lithium ion batteries. Electrochimica Acta 259: 131-142
Ming, H.; Yan, Y.; Ming, J.; Li, X.; Zhou, Q.; Huang, H.; Zheng, J. 2014: Porous Ti O2 nanoribbons and Ti O2 nanoribbon/carbon dot composites for enhanced Li-ion storage. RSC Adv. 4(25): 12971-12976
Okuya, M. 2004: Porous Ti O2 thin films prepared by spray pyrolysis deposition (SPD) technique and their application to UV sensors. Solid State Ionics 172(1-4): 527-531
Cai, Y.; Wang, H.; Huang, S.; Yuen, M.F.; Cai, H.; Wang, C.; Yu, Y.; Li, Y.; Zhang, W.; Su, B. 2016: Porous Ti O2 urchins for high performance Li-ion battery electrode: facile synthesis, characterization and structural evolution. Electrochimica Acta 210: 206-214
Wang, J.; Zhou, Y.; Shao, Z. 2013: Porous Ti O2(B)/anatase microspheres with hierarchical nano and microstructures for high-performance lithium-ion batteries. Electrochimica Acta 97: 386-392
Yamada, H.; Yamato, T.; Moriguchi, I.; Kudo, T. 2004: Porous Ti O2(anatase) Electrodes for High-Power Batteries. Chemistry Letters 33(12): 1548-1549
Zhang, W.J.; Xin, H.L. 2012: Porous Ti O2-Al2O3 Photocatalyst: the Effects of Calcination time. Advanced Materials Research 496: 165-168
Zhao, W.; Fei, P.; Zhang, X.; Zhang, Y.; Qin, C.; Wang, Z. 2018: Porous Ti O2/Fe2O3 nanoplate composites prepared by de-alloying method for Li-ion batteries. Materials Letters 211: 254-257
Liang, H.; Zhang, B.; Ge, H.; Gu, X.; Zhang, S.; Qin, Y. 2017: Porous Ti O2/Pt/Ti O2 Sandwich Catalyst for Highly Selective Semihydrogenation of Alkyne to Olefin. ACS Catalysis 7(10): 6567-6572
Dittrich, T. 2000: Porous Ti O2: Electron Transport and Application to Dye Sensitized Injection Solar Cells. Physica status solidi (a) 182(1): 447-455
Strohm, H.; Löbmann, P. 2004: Porous Ti O2hollow spheres by liquid phase deposition on polystyrene latex-stabilised Pickering emulsions. J. Mater. Chem. 14(17): 2667-2673
Tao, T.; Glushenkov, A.M.; Chen, Q.; Hu, H.; Zhou, D.; Zhang, H.; Boese, M.; Liu, S.; Amal, R.; Chen, Y. 2011: Porous Ti O2with a controllable bimodal pore size distribution from natural ilmenite. CrystEngComm 13(5): 1322-1327
Xu, W.; Liu, Z.; Lu, X.; Tian, J.; Chen, G.; Liu, B.; Li, Z.; Qu, X.; Wen, C. 2019: Porous Ti-10Mo alloy fabricated by powder metallurgy for promoting bone regeneration. Science China Materials 62(7): 1053-1064
Xie, G.; Kanetaka, H.; Kato, H.; Qin, F.; Wang, W. 2019: Porous Ti-based bulk metallic glass with excellent mechanical properties and good biocompatibility. Intermetallics 105: 153-162
Xie, X.; Kretschmer, K.; Anasori, B.; Sun, B.; Wang, G.; Gogotsi, Y. 2018: Porous Ti3C2Tx MXene for Ultrahigh-Rate Sodium-Ion Storage with Long Cycle Life. ACS Applied Nano Materials 1(2): 505-511
Liu, X.; Jiang, Y.; Zhang, H.; Yu, L.; Kang, J.; He, Y. 2015: Porous Ti3Si C2 fabricated by mixed elemental powders reactive synthesis. Journal of the European Ceramic Society 35(4): 1349-1353
Zhang, X.; Zheng, G.; Wang, J.; Zhang, Y.; Zhang, G.; Li, Z.; Wang, Y. 2013: Porous Ti6Al4V Scaffold Directly Fabricated by Sintering: Preparation and in Vivo Experiment. Journal of Nanomaterials 2013: 1-7
Xu, X.; Qiao, F.; Dang, L.; Lu, Q.; Gao, F. 2014: Porous Tin Oxide Nanosheets with Enhanced Conversion Efficiency as Dye-Sensitized Solar Cell Electrode. The Journal of Physical Chemistry C 118(30): 16856-16862
Shin, H.; Dong, J.; Liu, M. 2004: Porous Tin Oxides Prepared Using an Anodic Oxidation Process. Advanced Materials 16(3): 237-240
Delidovich, I.; Hoffmann, A.; Willms, A.; Rose, M. 2017: Porous Tin-Organic Frameworks as Selective Epimerization Catalysts in Aqueous Solutions. ACS Catalysis 7(6): 3792-3798
Mahadeva, S.K.; Kim, J. 2013: Porous Tin-Oxide-Coated Regenerated Cellulose as Disposable and Low-Cost Alternative Transducer for Urea Detection. IEEE Sensors Journal 13(6): 2223-2228
Hsieh, T.; Chu, A.; Huang, W. 2013: Porous Titania Films Prepared by the Sol–Gel Method with Applications for Dye-Sensitized Solar Cells. Advanced Science, Engineering and Medicine 5(3): 229-233
Braem, A.; Mattheys, T.; Neirinck, B.; Schrooten, J.; Van der Biest, O.; Vleugels, J. 2011: Porous Titanium Coatings Through Electrophoretic Deposition of Ti H2 Suspensions. Advanced Engineering Materials 13(6): 509-515
Zhao, S.; Li, J.; Wu, Y.; Yang, Z. 2020: Porous Titanium Dioxide Foams: a Promising Carrier Material for Medium- and High-Temperature Thermal Energy Storage. Energy-Fuels 34(7): 8884-8890
Arab, H.R.; Boostani, H.R.; Moeintaghavi, A.; Shiezadeh, F. 2019: Porous Titanium Granules for Sinus Floor Augmentation: a Case Series Study. The Open Dentistry Journal 13(1): 339-345
Kim, Y.; Kown, Y.; Park, J.; Chung, J.; Lim, H.; Jue, S.; Cho, M.; Herr, Y. 2006: Porous Titanium Membranes Combined with Various Graft Materials Induce Exophytic Bone Formation in Rabbit Calvaria. Bioceramics 18: 427-432
Kwok, P.; Oppenheimer, S.; Dunand, D. 2008: Porous Titanium by Electro-chemical Dissolution of Steel Space-holders. Advanced Engineering Materials 10(9): 820-825
Wally, Z.; van Grunsven, W.; Claeyssens, F.; Goodall, R.; Reilly, G. 2015: Porous Titanium for Dental Implant Applications. Metals 5(4): 1902-1920
Chen, D.; Zhai, H.; Chen, H.; Zhang, Y.; Fan, B.; Wang, H.; Lu, H.; Li, Z.; Zhang, R.; Sun, J.; Gao, L. 2012: Porous Tungsten Carbide Nanoplates Derived from Tungsten Trioxide Nanoplates. Journal of the American Ceramic Society 95(11): 3370-3373
Wang, H.; Liu, X.; Niu, P.; Wang, S.; Shi, J.; Li, L. 2020: Porous Two-Dimensional Materials for Photocatalytic and Electrocatalytic Applications. Matter 2(6): 1377-1413
Liang, H.; Li, L.; Meng, F.; Dang, L.; Zhuo, J.; Forticaux, A.; Wang, Z.; Jin, S. 2015: Porous Two-Dimensional Nanosheets Converted from Layered Double Hydroxides and their Applications in Electrocatalytic Water Splitting. Chemistry of Materials 27(16): 5702-5711
Ren, C.E.; Zhao, M.; Makaryan, T.; Halim, J.; Boota, M.; Kota, S.; Anasori, B.; Barsoum, M.W.; Gogotsi, Y. 2016: Porous Two‐Dimensional Transition Metal Carbide (MXene) Flakes for High‐Performance Li‐Ion Storage. ChemElectroChem 3(5): 689-693
Li, M.; Mou, J.; Zhong, L.; Liu, T.; Xu, Y.; Pan, W.; Huang, J.; Wang, G.; Liu, M. 2021: Porous Ultrathin W-Doped VO2 Nanosheets Enable Boosted Zn2+ (De)Intercalation Kinetics in VO2 for High-Performance Aqueous Zn-Ion Batteries. ACS Sustainable Chemistry-Engineering 9(42): 14193-14201
Du, Z.; Gupta, A.; Clarke, C.; Cappadona, M.; Clases, D.; Liu, D.; Yang, Z.; Karan, S.; Price, W.S.; Xu, X. 2020: Porous Upconversion Nanostructures as Bimodal Biomedical Imaging Contrast Agents. The Journal of Physical Chemistry C 124(22): 12168-12174
Liu, S.; Zhang, W.; Chen, N.; Sun, C. 2018: Porous Urchin-like Co3 O4 Microspheres as an Efficient Bifunctional Catalyst for Nonaqueous and Solid-State Li−O2 Batteries. ChemElectroChem 5(16): 2181-2185
Liu, H.; Zhu, W.; Long, D.; Zhu, J.; Pezzotti, G. 2019: Porous V2O5 nanorods/reduced graphene oxide composites for high performance symmetric supercapacitors. Applied Surface Science 478: 383-392
Li, R.; Zhang, H.; Zheng, Q.; Li, X. 2020: Porous V2O5 yolk–shell microspheres for zinc ion battery cathodes: activation responsible for enhanced capacity and rate performance. Journal of Materials Chemistry A 8(10): 5186-5193
Capra, B.R.; Boyce, R.R.; Kuhn, M.; Hald, H. 2015: Porous Versus Porthole Fuel Injection in a Radical Farming Scramjet: Numerical Analysis. Journal of Propulsion and Power 31(3): 789-804
Im, J.; Kim, D.; Lee, S.H.; Lee, Y. 2003: Porous Vesicles Dispersible in Organic Solvents. Langmuir 19(16): 6392-6396
Baba, M.; Nedelec, J.; Lacoste, J. 2003: Porous Volume of Inorganic Materials and Degree of Swelling of Elastomers Monitored by DSC Measurements. The Journal of Physical Chemistry B 107(46): 12884-12890
Wang, Y.; Zhang, F.; Zhao, G.; Zhao, Y.; Ren, Y.; Zhang, H.; Zhang, L.; Du, J.; Han, Y.; Kang, D.J. 2019: Porous WO3 monolith-based photoanodes for high-efficient photoelectrochemical water splitting. Ceramics International 45(6): 7302-7308
Zhao, B.; Lu, S.; Zhang, X.; Wang, H.; Liu, J.; Yan, H. 2015: Porous WO3/reduced graphene oxide composite film with enhanced electrochromic properties. Ionics 22(2): 261-267
Taha, A.A.; Li, F. 2014: Porous WO3–carbon nanofibers: high-performance and recyclable visible light photocatalysis. CATAL. Sci. Technol. 4(10): 3601-3605
Gibot, P.; Parmentier, J.; Vidal, L.; Schnell, F.; Nouali, H.; Spitzer, D. 2017: Porous WS 2 and W 2 N powders by hard templating with colloidal silica. Ceramics International 43(1): 1443-1448
Chen, B.; Gsalla, A.; Gaur, A.; Lui, Y.H.; Tang, X.; Geder, J.; Pruessner, M.; Melde, B.J.; Medintz, I.L.; Shafei, B.; Hu, S.; Claussen, J.C. 2019: Porous Wood Monoliths Decorated with Platinum Nano-Urchins as Catalysts for Underwater Micro-Vehicle Propulsion via H2O2 Decomposition. ACS Applied Nano Materials 2(7): 4143-4149
Yang, R.; Liu, S.; Chen, J.; Cui, H.; Liu, M.; Zhu, F.; Yang, Y.; Xie, M.; Sun, X.; Li, X. 2019: Porous Y2O3 fiber-reinforced silver composite exhibiting enhanced mechanical and electrical properties. Ceramics International 45(2): 1881-1886
Deng, B.; Ding, L.; Chen, J.; Zhong, S. 2011: Porous Y2O3 microcubes: synthesis and characterization. Rare Metals 30(6): 577-582
Li, D.; Li, M. 2012: Porous Y2Si O5 Ceramic with Low Thermal Conductivity. Journal of Materials Science-Technology 28(9): 799-802
Zhang, R.; Han, B.; Fang, D.; Wang, Y. 2015: Porous Y2Si O5 ceramics with a centrosymmetric structure produced by freeze casting. Ceramics International 41(9): 11517-11522
Cui, J.; Wang, J.; Fan, W.; Wan, Y.; Zhang, X.; Li, G.; Wu, K.; Cheng, Y.; Zhou, J. 2017: Porous YFe0.5Co0.5O3 thin sheets as cathode for intermediate-temperature solid oxide fuel cells. International Journal of Hydrogen Energy 42(31): 20164-20175
Hu, L.; Wang, C.; Huang, Y. 2011: Porous YSZ ceramics with unidirectionally aligned pore channel structure: Lowering thermal conductivity by silica aerogels impregnation. Journal of the European Ceramic Society 31(15): 2915-2922
Cinibulk, M.K.; Parthasarathy, T.A.; Keller, K.A.; Mah, T. 2004: Porous Yttrium Aluminum Garnet Fiber Coatings for Oxide Composites. Journal of the American Ceramic Society 85(11): 2703-2710
Tian, L.; Sun, Y.; Huang, H.; Guo, X.; Qiao, Z.; Meng, J.; Zhong, C. 2020: Porous ZIF‐8 Thin Layer Coating on Zn O Hollow Nanofibers for Enhanced Acetone Sensing. ChemistrySelect 5(8): 2401-2407
Liu, C.; Xu, G.; Hu, A.; Xie, Y.; Wang, H. 2019: Porous Zirconium Hydroxyphosphonoacetate: Catalyst for Conversion of Furfural into Furfuryl Alcohol. ChemistrySelect 4(27): 8000-8006
Kim, J.S.; Kim, A.; Byeon, Y.W.; Ahn, J.P.; Byun, D.; Lee, J.K. 2016: Porous Zn 2 Ge O 4 nanowires with uniform carbon-buffer layer for lithium-ion battery anodes with long cycle life. Electrochimica Acta 195: 43-50
Cheng, B.; Ouyang, Z.; Tian, B.; Xiao, Y.; Lei, S. 2013: Porous Zn Al2O4 spinel nanorods: High sensitivity humidity sensors. Ceramics International 39(7): 7379-7386
Chen, L.; Sun, X.; Liu, Y.; Zhou, K.; Li, Y. 2004: Porous Zn Al2O4 synthesized by a modified citrate technique. Journal of Alloys and Compounds 376(1-2): 257-261
Cheng, B.; Qu, S.; Zhou, H.; Wang, Z. 2006: Porous Zn Al2O4spinel nanorods doped with Eu3+: synthesis and photoluminescence. Nanotechnology 17(12): 2982-2987
Chen, X.; Cheng, B.; Xu, H.; Yang, J.; Qian, Y. 2012: Porous Zn Fe2O4 Nanospheres Grown on Graphene Nanosheets as a Superior Anode Material for Lithium Ion Batteries. Chemistry Letters 41(6): 639-641
Qu, Y.; Zhang, D.; Wang, X.; Qiu, H.; Zhang, T.; Zhang, M.; Tian, G.; Yue, H.; Feng, S.; Chen, G. 2017: Porous Zn Fe2O4 nanospheres as anode materials for Li-ion battery with high performance. Journal of Alloys and Compounds 721: 697-704
Zhao, C.; Teng, Z.; Zhao, D.; Hu, Z.; Liu, K. 2016: Porous Zn Mn O 3 plates prepared from Zn/Mn–sucrose composite as high‐performance lithium‐ion battery anodes. Micro-Nano Letters 11(9): 494-497
Chen, X.; Zhang, Y.; Lin, H.; Xia, P.; Cai, X.; Li, X.; Li, X.; Li, W. 2016: Porous Zn Mn2O4 nanospheres: Facile synthesis through microemulsion method and excellent performance as anode of lithium ion battery. Journal of Power Sources 312: 137-145
Zhang, Y.; Zhang, Y.; Guo, C.; Tang, B.; Wang, X.; Bai, Z. 2015: Porous Zn Mn2O4 nanowires as an advanced anode material for lithium ion battery. Electrochimica Acta 182: 1140-1144
Chen, M.; Wang, Z.; Han, D.; Gu, F.; Guo, G. 2011: Porous Zn O Polygonal Nanoflakes: Synthesis, use in High-Sensitivity NO2 Gas Sensor, and Proposed Mechanism of Gas Sensing. The Journal of Physical Chemistry C 115(26): 12763-12773
Peng, H.; Xiang-Dong, G.; Li-Bin, W.; Zheng-Wu, J.; Cai-Lu, W.; Xiao-Min, L.; , 2013: Porous Zn O Sheets Transformed from Zinc Sulfate Hydroxide Hydrate and their Photoluminescence Performance. Acta Physico-Chimica Sinica 29(04): 874-880
Yang, J.; Zhang, W.; Liu, Q.; Sun, W. 2014: Porous Zn O and Zn O–Ni O composite nano/microspheres: synthesis, catalytic and biosensor properties. RSC Adv. 4(93): 51098-51104
Hodgson, S.; Jones, S.; Holliman, P.; Rugen-Hankey, S.; Barrioz, V.; Irvine, S. 2014: Porous Zn O as a novel encapsulation matrix for quantum dot based luminescent down-shifting films. Materials Letters 130: 120-122
Giri, A.K.; Sinhamahapatra, A.; Prakash, S.; Chaudhari, J.; Shahi, V.K.; Panda, A.B. 2013: Porous Zn O microtubes with excellent cholesterol sensing and catalytic properties. J. Mater. Chem. A 1(3): 814-822
Song, J.; Kim, H.; Jae, W.; Kim, T.; Futalan, C.M.; Kim, J. 2020: Porous Zn O/C microspheres prepared with maleopimaric acid as an anode material for lithium-ion batteries. Carbon 165: 55-66
Hussain, M.Z.; Pawar, G.S.; Huang, Z.; Tahir, A.A.; Fischer, R.A.; Zhu, Y.; Xia, Y. 2019: Porous Zn O/Carbon nanocomposites derived from metal organic frameworks for highly efficient photocatalytic applications: a correlational study. Carbon 146: 348-363
Rakibuddin, M.; Ananthakrishnan, R. 2015: Porous Zn O/Co3O4 heteronanostructures derived from nano coordination polymers for enhanced gas sorption and visible light photocatalytic applications. RSC Advances 5(83): 68117-68127
Zhao, J.; Yao, S.; Hu, C.; Li, Z.; Wang, J.; Feng, X. 2019: Porous Zn O/Co3O4/Co O/Co composite derived from Zn-Co-ZIF as improved performance anodes for lithium-ion batteries. Materials Letters 250: 75-78
Zhou, X.; Feng, W.; Wang, C.; Hu, X.; Li, X.; Sun, P.; Shimanoe, K.; Yamazoe, N.; Lu, G. 2014: Porous Zn O/Zn Co2O4hollow spheres: synthesis, characterization, and applications in gas sensing. J. Mater. Chem. A 2(41): 17683-17690
Han, M.; Zhang, J.; Cui, P.; Yi, T.; Li, X. 2020: Porous Zn Ti O3 rods as a novel lithium storage material for Li-ion batteries. Ceramics International 46(9): 14030-14037
De Juan-Corpuz, L.M.Z.; Nguyen, M.T.; Corpuz, R.D.; Yonezawa, T.; Rosero-Navarro, N.C.; Tadanaga, K.; Tokunaga, T.; Kheawhom, S. 2019: Porous Zn V2O4 Nanowire for Stable and High-Rate Lithium-Ion Battery Anodes. ACS Applied Nano Materials 2(7): 4247-4256
Zhao, Y.; Wang, L.; Fan, N.; Han, M.; Yang, G.; Ma, L. 2018: Porous Zn(II)-Based Metal–Organic Frameworks Decorated with Carboxylate Groups Exhibiting High Gas Adsorption and Separation of Organic Dyes. Crystal Growth-Design 18(11): 7114-7121
Yu, Y.; Yin, Q.; Ye, L.; Yu, H. 2021: Porous Zn(II)-Organic Framework with Tetrazolyl Decorated Pores for Selective C2H2 Adsorption and Treatment Activity on Infantile Meningitis. Macromolecular Research 29(9): 605-612
Saad, S.K.M.; Umar, A.A.; Rahman, M.Y.A.; Salleh, M.M. 2015: Porous Zn-doped Ti O2 nanowall photoanode: Effect of Zn2+ concentration on the dye-sensitized solar cell performance. Applied Surface Science 353: 835-842
Scales, N.; Chen, J.; Aughterson, R.D.; Karatchevtseva, I.; Stopic, A.; Lumpkin, G.R.; Luca, V. 2018: Porous Zr C-carbon microspheres as potential insoluble target matrices for production of 188W/188Re. Journal of Radioanalytical and Nuclear Chemistry 318(2): 835-847
Yang, C.; Zhang, Y.; Lv, F.; Lin, C.; Liu, Y.; Wang, K.; Feng, J.; Wang, X.; Chen, Y.; Li, J.; Guo, S. 2017: Porous Zr Nb24O62 nanowires with pseudocapacitive behavior achieve high-performance lithium-ion storage. J. Mater. Chem. A 5(42): 22297-22304
Yang, T.; Zhao, W.; Li, H.; Saravanamurugan, S.; Yang, S. 2018: Porous Zr-Bibenzyldiphosphonate Nanohybrid with Extra Hydroxy Species for Enhancive Upgrading of Biomass-Based Levulinates. ChemistrySelect 3(16): 4252-4261
Chen, J.; Ma, J.; Alford, M.B.; Sun, Y.; Tong, J.; Peng, F. 2021: Porous Zr-Doped Ceria Microspheres for Thermochemical Splitting of Carbon Dioxide. ACS Applied Energy Materials 4(10): 10451-10458
Scales, N.; Chen, J.; Aughterson, R.D.; Karatchevtseva, I.; Stopic, A.; Lumpkin, G.R.; Luca, V. 2018: Porous Zr2SC-carbon composite microspheres: Possible radiation tolerant sorbents and transmutation hosts for technetium-99. Microporous and Mesoporous Materials 259: 67-78
Wang, T.; Hu, A.; Xu, G.; Liu, C.; Wang, H.; Xia, Y. 2019: Porous Zr–Thiophenedicarboxylate Hybrid for Catalytic Transfer Hydrogenation of Bio-Based Furfural to Furfuryl Alcohol. Catalysis Letters 149(7): 1845-1855
Gao, Z.; Xu, Y.; Wang, Z.; Wang, H.; Zhang, D.; Li, Z. 2020: Porous [Ru(bpy)3]2+-Cored Metallosupramolecular Polymers: Preparation and Recyclable Photocatalysis for the Formation of Amides and 2-Diazo-2-phenylacetates. ACS Applied Polymer Materials 2(11): 4885-4892
Bucevac, D.; Maletaskic, J.; Omerasevic, M.; Matovic, B.; Wang, C. 2017: Porous acicular mullite ceramics fabricated with in situ formed soot oxidation catalyst obtained from waste Mo Si2. Ceramics International 43(13): 9815-9822
Bučevac, D.; Dapčević, A.; Maksimović, V. 2014: Porous acicular mullite obtained by controlled oxidation of waste molybdenum disilicide. Materials Research Bulletin 50: 155-160
Lu, Q.; Lu, B.; Chen, M.; Wang, X.; Xing, T.; Liu, M.; Wang, X. 2018: Porous activated carbon derived from Chinese-chive for high energy hybrid lithium-ion capacitor. Journal of Power Sources 398: 128-136
Taer, E.; Yanti, N.; Mustika, W.S.; Apriwandi, A.; Taslim, R.; Agustino, A. 2020: Porous activated carbon monolith with nanosheet/nanofiber structure derived from the green stem of cassava for supercapacitor application. International Journal of Energy Research 44(13): 10192-10205
Talavera-Ramos, W.; Tellería-Narvaez, A.; Dos Santos, L.; Bevilacqua, A.; Soba, A.; Luca, V. 2021: Porous activated carbon monoliths as a novel target material for the production of 99Mo by fission. Journal of Radioanalytical and Nuclear Chemistry 330(3): 1299-1310
Liu, H.; Wang, A.; Xu, X.; Wang, M.; Shang, S.; Liu, S.; Song, J. 2016: Porous aerogels prepared by crosslinking of cellulose with 1,4-butanediol diglycidyl ether in Na OH/urea solution. RSC Advances 6(49): 42854-42862
Shcherbakov, V.; Jourdan, O.; Voigt, C.; Gayet, J.; Chauvigne, A.; Schwarzenboeck, A.; Minikin, A.; Klingebiel, M.; Weigel, R.; Borrmann, S.; Jurkat, T.; Kaufmann, S.; Schlage, R.; Gourbeyre, C.; Febvre, G.; Lapyonok, T.; Frey, W.; Molleker, S.; Weinzierl, B. 2016: Porous aerosol in degassing plumes of Mt. Etna and Mt. Stromboli. Atmospheric Chemistry and Physics 16(18): 11883-11897
Zou, W.; Wang, X.; Yang, Y.; Wu, Y.; Zu, G.; Zou, L.; Shen, J. 2019: Porous alumina aerogel with tunable pore structure for facile, ultrasensitive, and reproducible SERS platform. Journal of Raman Spectroscopy 50(10): 1429-1437
Moon, Y.; Choi, I.; Koh, Y.; Kim, H. 2015: Porous alumina ceramic scaffolds with biomimetic macro/micro-porous structure using three-dimensional (3-D) ceramic/camphene-based extrusion. Ceramics International 41(9): 12371-12377
Okada, K.; Tanaka, A.; Hayashi, S.; Daimon, K.; Otsuka, N. 1994: Porous alumina ceramics by spray-pyrolyzed powder from aluminum sulfate and aluminum nitrate solutions. Journal of Materials Research 9(7): 1709-1713
Gregorová, E.; Pabst, W.; Živcová, Z.; Sedlářová, I.; Holíková, S. 2010: Porous alumina ceramics prepared with wheat flour. Journal of the European Ceramic Society 30(14): 2871-2880
Shi, G.; Wu, Z.; Jiang, C.; Peng, S.; Yan, J.; Wang, Z. 2015: Porous alumina ceramics produced by physical vapor deposition assisted freeze-casting method. Materials Letters 161: 580-582
Wei, Z.; Li, S.; Li, Y.; Li, X.; Xiang, R.; Xu, N. 2018: Porous alumina ceramics with enhanced mechanical and thermal insulation properties based on sol-treated rice husk. Ceramics International 44(18): 22616-22621
Moon, Y.; Shin, K.; Koh, Y.; Choi, W.; Kim, H. 2012: Porous alumina ceramics with highly aligned pores by heat-treating extruded alumina/camphene body at temperature near its solidification point. Journal of the European Ceramic Society 32(5): 1029-1034
Moritz, K.; Dietze, C.; Voigt, C.; Hubálková, J.; Aneziris, C.G. 2019: Porous alumina coatings on carbon-bonded foam filters by electrophoretic deposition. Ceramics International 45(8): 10701-10706
Zaraska, L.; Kurowska, E.; Sulka, G.D.; Jaskuła, M. 2012: Porous alumina membranes with branched nanopores as templates for fabrication of Y-shaped nanowire arrays. Journal of Solid State Electrochemistry 16(11): 3611-3619
Silva, A.D.R.; Rigoli, W.R.; Mello, D.C.R.; Vasconcellos, L.M.R.; Pallone, E.M.J.A.; Lobo, A.O. 2018: Porous alumina scaffolds chemically modified by calcium phosphate minerals and their application in bone grafts. International Journal of Applied Ceramic Technology 16(2): 562-573
Holubowitch, N.; Nagle, L.; Rohan, J. 2012: Porous alumina thin films on conductive substrates for templated 1-dimensional nanostructuring. Solid State Ionics 216: 110-113
Yang, Y.; Vaidyanathan, N.; Weber, S.G. 2009: Porous alumina-based fluorous liquid membranes: Dependence of transport on fluorous solvent. Journal of Fluorine Chemistry 130(11): 1022-1027
Khattab, R.; Hessien, M.; Abd El Ghaffar, N.; Abd El Rahim, S.; Sadek, H. 2020: Porous alumina-felsite ceramic composites prepared by direct coagulation casting method: Felsite rock (central-eastern desert, Egypt). Ceramics International 46(18): 28308-28315
Salomão, R.; Bôas, M.O.V.; Pandolfelli, V.C. 2011: Porous alumina-spinel ceramics for high temperature applications. Ceramics International 37(4): 1393-1399
Choi, H.J.; Yang, T.Y.; Yoon, S.Y.; Kim, B.K.; Park, H.C. 2012: Porous alumina/zirconia layered composites with unidirectional pore channels processed using a tertiary-butyl alcohol-based freeze casting. Materials Chemistry and Physics 133(1): 16-20
Fischer, M. 2018: Porous aluminophosphates as adsorbents for the separation of CO2/CH4 and CH4/N2 mixtures – a Monte Carlo simulation study. Sustainable Energy-Fuels 2(8): 1749-1763
Alzeer, M.I.; MacKenzie, K.J.; Keyzers, R.A. 2016: Porous aluminosilicate inorganic polymers (geopolymers): a new class of environmentally benign heterogeneous solid acid catalysts. Applied Catalysis A: General 524: 173-181
Meng, X.; Bian, J.; Li, J.; Ma, Z.; Long, Q.; Su, J. 2020: Porous aluminosilicates catalysts for low and medium matured shale oil in situ upgrading. Energy Science-Engineering 8(8): 2859-2867
Zangari, G.; Lambeth, D. 1997: Porous aluminum oxide templates for nanometer-sized cobalt arrays. IEEE Transactions on Magnetics 33(5): 3010-3012
Wang, X.; Liu, C.; Li, J.; Qiao, L.; Bai, Y. 2018: Porous aluminum titanate‒strontium feldspar‒mullite fiber composite ceramics with enhanced pore structures and mechanical properties. Ceramics International 44(18): 22686-22691
Kurisingal, J.F.; Li, Y.; Sagynbayeva, Y.; Chitumalla, R.K.; Vuppala, S.; Rachuri, Y.; Gu, Y.; Jang, J.; Park, D. 2020: Porous aluminum-based DUT metal-organic frameworks for the transformation of CO2 into cyclic carbonates: a computationally supported study. Catalysis Today 352: 227-236
Li, X.; Guo, W.; Wan, Q.; Ma, J. 2015: Porous amorphous Ge/C composites with excellent electrochemical properties. RSC Advances 5(36): 28111-28114
Hu, F.; Zhang, Y.; Shen, X.; Tao, J.; Yang, X.; Xiong, Y.; Peng, Z. 2019: Porous amorphous Ni Fe Ox/Ni Fe P framework with dual electrocatalytic functions for water electrolysis. Journal of Power Sources 428: 76-81
Ahn, M.; Hwang, S.; Han, S.; Choi, M.; Byun, D.; Lee, W. 2020: Porous an hollow nanofibers for solid oxide fuel cell electrodes. Korean Journal of Chemical Engineering 37(8): 1371-1378
Zhao, M.; Chen, T.; Deng, C. 2016: Porous anatase Ti O2 derived from a titanium metal–organic framework as a multifunctional phospho-oriented nanoreactor integrating accelerated digestion of proteins and in situ enrichment. RSC Advances 6(57): 51670-51674
Su, B.; He, X.; Dhara, S.; Mansell, J. 2007: Porous and Bioactive Alumina Ceramics for Bone Grafts and Tissue Engineering Scaffolds. Key Engineering Materials: 975-978
Vu, T.H.; Shin, D.; Jeong, J.; Lee, J. 2016: Porous and Conductive Fibrous Carbon for Enhanced Electrocatalytic Oxygen Reduction Reaction in Alkaline Media. The Journal of Physical Chemistry C 120(39): 22342-22348
Teng, Y.; Liu, W.; Lan, M.; Ma, S.; Ma, C. 2015: Porous and Dendritic Structure of Screen-Printed Electrode for in-situ Electrochemical Surface-Enhanced Raman Scattering. Analytical Letters 49(2): 299-306
Ke, T.; Vedhanarayanan, B.; Shao, L.; Lin, T. 2019: Porous and Hierarchically Structured Ammonium Nickel Molybdate/Nickel Sulfide/Reduced Graphene Oxide Ternary Composite as High Performance Electrode for Supercapacitors. ChemElectroChem 6(14): 3806-3814
Ning, G.; Liu, Y.; Wei, F.; Wen, Q.; Luo, G. 2007: Porous and Lamella-like Fe/Mg O Catalysts Prepared under Hydrothermal Conditions for High-Yield Synthesis of Double-Walled Carbon Nanotubes. The Journal of Physical Chemistry C 111(5): 1969-1975
Föll, H.; Carstensen, J.; Frey, S. 2006: Porous and Nanoporous Semiconductors and Emerging Applications. Journal of Nanomaterials 2006: 1-10
Mierzwa, M.; Lamouroux, E.; Walcarius, A.; Etienne, M. 2018: Porous and Transparent Metal-oxide Electrodes :  Preparation Methods and Electroanalytical Application Prospects. Electroanalysis 30(7): 1241-1258
Tsai, W.; Bai, Y.; Lin, Y.; Lai, Y.; Tsai, C. 2019: Porous and adsorption properties of activated carbon prepared from cocoa pod husk by chemical activation. Biomass Conversion and Biorefinery 10(1): 35-43
Jiang, Y.; Gao, S.; Xu, G.; Song, X. 2021: Porous and amorphous cobalt hydroxysulfide core–shell nanoneedles on Ti-mesh as a bifunctional electrocatalyst for energy-efficient hydrogen production via urea electrolysis. Journal of Materials Chemistry A 9(9): 5664-5674
Fortin, J.; Guéguen, Y. 2021: Porous and cracked rocks elasticity: Macroscopic poroelasticity and effective media theory. Mathematics and Mechanics of Solids 26(8): 1158-1172
Fang, Y.; Yang, B.; He, D.; Li, H.; Zhu, K.; Wu, L.; Ye, K.; Cheng, K.; Yan, J.; Wang, G.; Cao, D. 2020: Porous and free-standing Ti3C2T -RGO film with ultrahigh gravimetric capacitance for supercapacitors. Chinese Chemical Letters 31(4): 1004-1008
Allegrini, J.; Maesschalck, J.; Alessi, G.; Glabeke, G.; Christophe, J.; van Beeck, J. 2018: Porous and geometry-resolved CFD modelling of a lattice transmission tower validated by drag force and flow field measurements. Engineering Structures 168: 462-472
Zhu, J.; Xu, Y.; Zhang, Y.; Feng, T.; Wang, J.; Mao, S.; Xiong, L. 2016: Porous and high electronic conductivity nitrogen-doped nano-sheet carbon derived from polypyrrole for high-power supercapacitors. Carbon 107: 638-645
Lu, K. 2015: Porous and high surface area silicon oxycarbide-based materials- A review. Materials Science and Engineering: R: Reports 97: 23-49
Xue, Y.; Xie, J.; He, M.; Liu, M.; Xu, M.; Ni, W.; Yan, Y. 2018: Porous and high-strength graphitic carbon/Si C three-dimensional electrode for capacitive deionization and fuel cell applications. Journal of Materials Chemistry A 6(39): 19210-19220
Hao, S.; Zhang, B.; Ball, S.; Hu, B.; Wu, J.; Huang, Y. 2016: Porous and hollow Ni O microspheres for high capacity and long-life anode materials of Li-ion batteries. Materials-Design 92: 160-165
Pinto, M.L.; Pires, J. 2012: Porous and hybrid clay based materials for separation of hydrocarbons. Microporous and Mesoporous Materials 151: 403-410
Huang, Z.; Li, F.; Chen, B.; Yuan, G. 2015: Porous and low-defected graphitic carbon nitride nanotubes for efficient hydrogen evolution under visible light irradiation. RSC Advances 5(124): 102700-102706
Ghasali, E.; Alizadeh, M.; Shirvanimoghaddam, K.; Mirzajany, R.; Niazmand, M.; Faeghi-Nia, A.; Ebadzadeh, T. 2018: Porous and non-porous alumina reinforced magnesium matrix composite through microwave and spark plasma sintering processes. Materials Chemistry and Physics 212: 252-259
Schadeck, U.; Kyrgyzbaev, K.; Gerdes, T.; Willert-Porada, M.; Moos, R. 2018: Porous and non-porous micrometer-sized glass platelets as separators for lithium-ion batteries. Journal of Membrane Science 550: 518-525
Das, A.; Shome, A.; Manna, U. 2021: Porous and reactive polymeric interfaces: an emerging avenue for achieving durable and functional bio-inspired wettability. Journal of Materials Chemistry A 9(2): 824-856
Wang, L.; Neumann, M.; Fu, T.; Li, W.; Cheng, X.; Su, B. 2018: Porous and responsive hydrogels for cell Therapy. Current Opinion in Colloid-Interface Science 38: 135-157
Zhou, W.; Zhou, Y.; Wang, S.; Wang, P.; Teng, S. 2021: Porous and self-strengthened poly(ε-caprolactone)/calcium sulfate hemihydrate composite fibers for bone regeneration. Ceramics International 47(17): 23814-23820
Gong, Y.; Gong, F.; Wang, C.; Zheng, H.; Li, F. 2015: Porous and single crystalline Co3O4 nanospheres for pseudocapacitors with enhanced performance. RSC Advances 5(35): 27266-27272
Liu, J.; Huang, K.; Tang, H.; Lei, M. 2016: Porous and single-crystalline-like molybdenum nitride nanobelts as a non-noble electrocatalyst for alkaline fuel cells and electrode materials for supercapacitors. International Journal of Hydrogen Energy 41(2): 996-1001
Huang, T.; Rahaman, M.; Doiphode, N.; Leu, M.; Bal, B.; Day, D.; Liu, X. 2011: Porous and strong bioactive glass (13–93) scaffolds fabricated by freeze extrusion technique. Materials Science and Engineering: C31(7): 1482-1489
Zheng, Y.; Zhang, J.; Zhan, H.; Sun, D.; Dang, D.; Tian, X.L. 2018: Porous and three dimensional titanium nitride supported platinum as an electrocatalyst for oxygen reduction reaction. Electrochemistry Communications 91: 31-35
Scalarone, D.; Tata, J.; Caldera, F.; Lazzari, M.; Chiantore, O. 2011: Porous and worm-like titanium dioxide nanostructures from PS-b-PEO block copolymer micellar solutions. Materials Chemistry and Physics 128(1-2): 166-171
Peng, Z.; Guo, Y.; Chen, C.; Ao, G.; Wang, X.; Wang, S.; Zhang, Y.; Lv, Z.; Wang, Z. 2021: Porous and wrinkle treatment of commercial Ni foam and its application for high-efficiency oxygen evolution reaction electrode. International Journal of Hydrogen Energy 46(7): 4890-4902
Cai, K.; Xiao, Y.; Lang, X.; Tong, Y.; He, T.; Mao, Z.; Wang, C. 2017: Porous anode of lithium–oxygen battery based on double-gas-path structure. International Journal of Hydrogen Energy 42(50): 29944-29948
Prischepa, S.L.; Lynkov, L.M.; Lykov, A.N.; Dedyu, V.I. 1994: Porous anodic Al2O3 ayers for superconducting films. Cryogenics 34: 851-853
Zaraska, L.; Jaskuła, M.; Sulka, G.D. 2016: Porous anodic alumina layers with modulated pore diameters formed by sequential anodizing in different electrolytes. Materials Letters 171: 315-318
Thompson, G. 1997: Porous anodic alumina: fabrication, characterization and applications. Thin Solid Films 297(1-2): 192-201
He, S.; Ye, H.; Ma, Y.; Guo, L.; Gou, Y.; Zhang, P. 2016: Porous anodic film growth on beryllium in Na OH electrolyte. Corrosion Science 107: 21-30
Yabuki, A.; Nagayama, Y.; Fathona, I.W. 2019: Porous anodic oxide film with self-healing ability for corrosion protection of aluminum. Electrochimica Acta 296: 662-668
Han, Y.; Li, C.; Bian, C.; Li, S.; Wang, C. 2013: Porous anorthite ceramics with ultra-low thermal conductivity. Journal of the European Ceramic Society 33(13-14): 2573-2578
Landi, E.; Riccobelli, S.; Sangiorgi, N.; Sanson, A.; Doghieri, F.; Miccio, F. 2014: Porous apatites as novel high temperature sorbents for carbon dioxide. Chemical Engineering Journal 254: 586-596
Chen, P.; Sun, J.; Zhang, L.; Ma, W.; Sun, F.; Zhu, G. 2018: Porous aromatic framework (PAF-1) as hyperstable platform for enantioselective organocatalysis. Science China Materials 62(2): 194-202
Zhang, S.; Sun, F.; Zhu, G. 2017: Porous aromatic framework as an efficient adsorbent in removing phenol from water. Inorganic Chemistry Communications 85: 110-112
Rangel-Rangel, E.; Verde-Sesto, E.; Rasero-Almansa, A.M.; Iglesias, M.; Sánchez, F. 2016: Porous aromatic frameworks (PAFs) as efficient supports for N-heterocyclic carbene catalysts. Catalysis Science-Technology 6(15): 6037-6045
Xiaofei, J.; Guangshan, Z. 2018: Porous aromatic frameworks derived from tetrahedral units. Chinese Science Bulletin 63(22): 2215-2228
Ben, T.; Qiu, S. 2013: Porous aromatic frameworks: Synthesis, structure and functions. CrystEngComm 15(1): 17-26
Pascual, B.S.; Trigo-López, M.; Reglero Ruiz, J.A.; Pablos, J.L.; Bertolín, J.C.; Represa, C.; Cuevas, J.V.; García, F.C.; García, J.M. 2019: Porous aromatic polyamides the easy and green way. European Polymer Journal 116: 91-98
Nguyen, Q.H.; Lorente, S.; Duhart-Barone, A.; Lamotte, H. 2018: Porous arrangement and transport properties of geopolymers. Construction and Building Materials 191: 853-865
Huang, C.; Hao, N.; Bhagia, S.; Li, M.; Meng, X.; Pu, Y.; Yong, Q.; Ragauskas, A.J. 2018: Porous artificial bone scaffold synthesized from a facile in situ hydroxyapatite coating and crosslinking reaction of crystalline nanocellulose. Materialia 4: 237-246
Lastra-González, P.; Calzada-Pérez, M..; Castro-Fresno, D.; Vega-Zamanillo, .; Indacoechea-Vega, I. 2017: Porous asphalt mixture with alternative aggregates and crumb-rubber modified binder at reduced temperature. Construction and Building Materials 150: 260-267
Zhang, M.; Sun, Z.; Zhang, T.; Qin, B.; Sui, D.; Xie, Y.; Ma, Y.; Chen, Y. 2017: Porous asphalt/graphene composite for supercapacitors with high energy density at superior power density without added conducting materials. J. Mater. Chem. A 5(41): 21757-21764
Silva, A.O.; Hotza, D.; Machado, R.; Rezwan, K.; Wilhelm, M. 2021: Porous asymmetric microfiltration membranes shaped by combined alumina freeze and tape casting. Journal of the European Ceramic Society 41(1): 871-879
Yin, N.; Chen, S.; Li, Z.; Ouyang, Y.; Hu, W.; Tang, L.; Zhang, W.; Zhou, B.; Yang, J.; Xu, Q.; Wang, H. 2012: Porous bacterial cellulose prepared by a facile surfactant-assisted foaming method in azodicarbonamide-Na OH aqueous solution. Materials Letters 81: 131-134
Gao, Y.; Tang, Y.; Liu, W.; Liu, L.; Zeng, X. 2020: Porous bamboo‐like CNTs prepared by a simple and low‐cost steam activation for supercapacitors. International Journal of Energy Research 44(13): 10946-10952
Liu, F.; Xu, Y.; Zhao, L.; Zhang, L.; Guo, W.; Wang, R.; Sun, D. 2015: Porous barium–organic frameworks with highly efficient catalytic capacity and fluorescence sensing ability. Journal of Materials Chemistry A 3(43): 21545-21552
Qiao, J.; Wang, N.; Wang, Z.; Sun, W.; Sun, K. 2015: Porous bimetallic Mn2Co1Ox catalysts prepared by a one-step combustion method for the low temperature selective catalytic reduction of NOx with NH3. Catalysis Communications 72: 111-115
Zhang, J.; Lu, H.; Lu, H.; Li, G.; Gao, J.; Yang, Z.; Tian, Y.; Zhang, M.; Wang, C.; He, Z. 2019: Porous bimetallic Mo-W oxide nanofibers fabricated by electrospinning with enhanced acetone sensing performances. Journal of Alloys and Compounds 779: 531-542
Ji, Y.; Wu, Y.; Zhao, G.; Wang, D.; Liu, L.; He, W.; Li, Y. 2015: Porous bimetallic Pt-Fe nanocatalysts for highly efficient hydrogenation of acetone. Nano Research 8(8): 2706-2713
Jiang, B.; Hu, X.; Huang, Z. 2013: Porous bio-ceramic coating on zirconia formed through freeze-drying. Materials Letters 109: 66-69
Fu, Y.; Ho, M.; Wu, S.; Hsieh, H.; Wang, C. 2008: Porous bioceramic bead prepared by calcium phosphate with sodium alginate gel and PE powder. Materials Science and Engineering: C28(7): 1149-1158
Zhang, B.; Pei, X.; Song, P.; Sun, H.; Li, H.; Fan, Y.; Jiang, Q.; Zhou, C.; Zhang, X. 2018: Porous bioceramics produced by inkjet 3D printing: Effect of printing ink formulation on the ceramic macro and micro porous architectures control. Composites Part B: Engineering 155: 112-121
Li, Q.; Bai, X.; Meng, Q.; Chen, T.; Zhu, W.; Yao, W.; Lei, J.; Zhang, L.; Yang, X.; Wei, X.; Duan, T. 2018: Porous biochar generated from natural Amorphophallus konjac for high performance supercapacitors. Applied Surface Science 448: 16-22
Hekimoğlu, G.; Sarı, A.; Arunachalam, S.; Arslanoğlu, H.; Gencel, O. 2021: Porous biochar/heptadecane composite phase change material with leak-proof, high thermal energy storage capacity and enhanced thermal conductivity. Powder Technology 394: 1017-1025
Novais, R.M.; Buruberri, L.; Ascensão, G.; Seabra, M.; Labrincha, J. 2016: Porous biomass fly ash-based geopolymers with tailored thermal conductivity. Journal of Cleaner Production 119: 99-107
Shin, U.S.; Park, J.; Hong, S.; Won, J.; Yu, H.; Kim, H. 2010: Porous biomedical composite microspheres developed for cell delivering scaffold in bone regeneration. Materials Letters 64(20): 2261-2264
Zhao, P.; Yu, F.; Wang, B.; Zhao, H.; Chen, C.; Wang, D.; Ying, P.; Wu, Y.; Li, P.; Zhang, B.; Liu, B.; Zhao, Z.; Hu, W.; Yu, D.; He, J.; Liu, Z.; Xu, B.; Tian, Y. 2021: Porous bismuth antimony telluride alloys with excellent thermoelectric and mechanical properties. Journal of Materials Chemistry A 9(8): 4990-4999
González, M.F. 2019: Porous borders: multiracial migrations and the law in the U.S.-Mexico borderlands. Ethnic and Racial Studies 43(3): 560-562
Suo, N.; Huang, H.; Wu, A.; Cao, G.; Hou, X.; Zhang, G. 2018: Porous boron doped diamonds as metal-free catalysts for the oxygen reduction reaction in alkaline solution. Applied Surface Science 439: 329-335
Li, X.; Qi, F.; Xue, Y.; Yu, C.; Jia, H.; Bai, Y.; Wang, S.; Liu, Z.; Zhang, J.; Tang, C. 2016: Porous boron nitride coupled with Cd S for adsorption–photocatalytic synergistic removal of Rh B. RSC Advances 6(101): 99165-99171
Shankar, R.; Sachs, M.; Francàs, L.; Lubert-Perquel, D.; Kerherve, G.; Regoutz, A.; Petit, C. 2019: Porous boron nitride for combined CO2 capture and photoreduction. Journal of Materials Chemistry A 7(41): 23931-23940
Li, R.; Lin, J.; Fang, Y.; Yu, C.; Zhang, J.; Xue, Y.; Liu, Z.; Zhang, J.; Tang, C.; Huang, Y. 2018: Porous boron nitride nanofibers/PVA hydrogels with improved mechanical property and thermal stability. Ceramics International 44(18): 22439-22444
Perdigon-Melon, J.A.; Auroux, A.; Cornu, D.; Miele, P.; Toury, B.; Bonnetot, B. 2002: Porous boron nitride supports obtained from molecular precursors. Journal of Organometallic Chemistry 657(1-2): 98-106
Yang, K.; Kang, Y.Y.; Ahn, H.J.; Kim, D.; Park, N.K.; Choi, S.Q.; Won, J.C.; Kim, Y.H. 2020: Porous boron nitride/polyimide composite films with high thermal diffusivity and low dielectric properties via high internal phase Pickering emulsion method. Journal of Industrial and Engineering Chemistry 82: 173-179
He, X.; Yu, C.; Lin, J.; Zhang, X.; Li, Q.; Fang, Y.; Liu, Z.; Li, L.; Huang, Y.; Tang, C. 2018: Porous boron nitride/rare earth complex hybrids with multicolor tunable photoluminescence. Journal of Alloys and Compounds 768: 15-21
Li, Y.; Li, H.; Li, M.; Li, C.; Sun, D.; Yang, B. 2017: Porous boron-doped diamond electrode for detection of dopamine and pyridoxine in human serum. Electrochimica Acta 258: 744-753
Lourencao, B.C.; Pinheiro, R.A.; Silva, T.A.; Corat, E.J.; Fatibello-Filho, O. 2017: Porous boron-doped diamond/CNT electrode as electrochemical sensor for flow-injection analysis applications. Diamond and Related Materials 74: 182-190
Zhang, Q.; Cheng, Y.; Li, G.; Xiao, X. 2015: Porous boronate affinity monolith for on-line extraction coupled to high-performance liquid chromatography for sensitive analysis of heterocyclic aromatic amines in food samples. Chinese Chemical Letters 26(12): 1470-1477
Zhang, X.; Wang, M.; Zhu, G.; Li, D.; Yan, D.; Lu, T.; Pan, L. 2017: Porous cake-like Ti O2 derived from metal-organic frameworks as superior anode material for sodium ion batteries. Ceramics International 43(2): 2398-2402
Kalita, S.J.; Bose, S.; Bandyopadhyay, A.; Hosick, H.L. 2002: Porous calcium aluminate ceramics for bone-graft applications. Journal of Materials Research 17(12): 3042-3049
Miao, X.; Tan, L.; Tan, L.; Huang, X. 2007: Porous calcium phosphate ceramics modified with PLGA–bioactive glass. Materials Science and Engineering: C27(2): 274-279
Miao, X.; Hu, Y.; Liu, J.; Wong, A. 2004: Porous calcium phosphate ceramics prepared by coating polyurethane foams with calcium phosphate cements. Materials Letters 58(3-4): 397-402
He, F.; Tian, Y.; Fang, X.; Xu, Y.; Ye, J. 2018: Porous calcium phosphate composite bioceramic beads. Ceramics International 44(11): 13430-13433
Han, X.; Zhang, T.; Du, J.; Cheng, F.; Chen, J. 2013: Porous calcium–manganese oxide microspheres for electrocatalytic oxygen reduction with high activity. CHEM. Sci. 4(1): 368-376
Tham, N.N.; Ge, X.; Yu, A.; Li, B.; Zong, Y.; Liu, Z. 2021: Porous calcium–manganese oxide/carbon nanotube microspheres as efficient oxygen reduction catalysts for rechargeable zinc–air batteries. Inorganic Chemistry Frontiers 8(8): 2052-2060
Yan, H.; Wang, J.; Fang, Y.; Zhou, M.; Guo, X.; Wang, H.; Dai, Y.; Li, W.; Zheng, J. 2019: Porous carbon anchored titanium carbonitride for high-performance supercapacitor. Electrochimica Acta 304: 138-145
Thakur, B.; Guo, X.; Chang, J.; Kron, M.; Chen, J. 2017: Porous carbon and Prussian blue composite: a highly sensitive electrochemical platform for glucose biosensing. Sensing and Bio-Sensing Research 14: 47-53
Goodenough, J.; Hamnett, A.; Kennedy, B.; Manoharan, R.; Weeks, S. 1990: Porous carbon anodes for the direct methanol fuel cell- I. the role of the reduction method for carbon supported platinum electrodes. Electrochimica Acta 35(1): 199-207
Avhad, M.; Flaud, V.; Burel, L.; Cavailles, J.; Sakpal, T.; Lefferts, L.; Kaper, H. 2020: Porous carbon as catalyst support for CO oxidation: Impact of nitrogen doping. Carbon 169: 297-306
Khan, I.A.; Badshah, A.; Haider, N.; Ullah, S.; Anjum, D.H.; Nadeem, M.A. 2014: Porous carbon as electrode material in direct ethanol fuel cells (DEFCs) synthesized by the direct carbonization of MOF-5. Journal of Solid State Electrochemistry 18(6): 1545-1555
Hong, S.; Choi, S.W.; Kim, S.H.; Lee, K.B. 2016: Porous carbon based on polyvinylidene fluoride: Enhancement of CO2 adsorption by physical activation. Carbon 99: 354-360
Zbair, M.; Ait Ahsaine, H.; Anfar, Z. 2018: Porous carbon by microwave assisted pyrolysis: An effective and low-cost adsorbent for sulfamethoxazole adsorption and optimization using response surface methodology. Journal of Cleaner Production 202: 571-581
Martin, C.; Richou, M.; Brosset, C.; Sakaily, W.; Pégourié, B.; Roubin, P. 2007: Porous carbon deposits in controlled fusion reactor: adsorption properties and structural characterization. Studies in Surface Science and Catalysis: 249-256
Chang, L.; Li, J.; Duan, X.; Liu, W. 2015: Porous carbon derived from Metal–organic framework (MOF) for capacitive deionization electrode. Electrochimica Acta 176: 956-964
Wang, K.; Xu, M.; Wang, X.; Gu, Z.; Fan, Q.H.; Gibbons, W.; Croat, J. 2017: Porous carbon derived from aniline-modified fungus for symmetrical supercapacitor electrodes. RSC Advances 7(14): 8236-8240