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List of PDF Full Texts available from EurekaMag Chapter 53622

Chapter 53622 contains a list of PDF Full Texts available from EurekaMag.





Ryltsev, R.E.; Chtchelkatchev, N.M., 2014:
Hydrodynamic anomalies in supercritical fluid

Mahmood, S.; Yoo, Y.; Oh, J.; Kwak, H-Young., 2014:
Hydrodynamic approach to multibubble sonoluminescence

Vijay, R.; Sardar, V.K.; Dhage, S.S.; Kelkar, P.S.; Gupta, A., 2010:
Hydrodynamic assessment of sewage impact on water quality of Malad Creek, Mumbai, India

Morthomas, J.; Würger, A., 2011:
Hydrodynamic attraction of immobile particles due to interfacial forces

Berke, A.P.; Turner, L.; Berg, H.C.; Lauga, E., 2008:
Hydrodynamic attraction of swimming microorganisms by surfaces

Rangelov, S.; Trzebicka, B.; Jamroz-Piegza, M.; Dworak, A., 2007:
Hydrodynamic behavior of high molar mass linear polyglycidol in dilute aqueous solution

Chu, C.Y.; Wu, S.Y.; Wu, Y.C.; Lin, C.Y., 2011:
Hydrodynamic behaviors in fermentative hydrogen bioreactors by pressure fluctuation analysis

Schaeffel, D.; Yordanov, S.; Schmelzeisen, M.; Yamamoto, T.; Kappl, M.; Schmitz, R.; Dünweg, B.; Butt, H-Jürgen.; Koynov, K., 2014:
Hydrodynamic boundary condition of water on hydrophobic surfaces

Manor, O.; Vakarelski, I.U.; Tang, X.; O'Shea, S.J.; Stevens, G.W.; Grieser, F.; Dagastine, R.R.; Chan, D.Y.C., 2008:
Hydrodynamic boundary conditions and dynamic forces between bubbles and surfaces

Takagi, D.; Palacci, Jérémie.; Braunschweig, A.B.; Shelley, M.J.; Zhang, J., 2014:
Hydrodynamic capture of microswimmers into sphere-bound orbits

Badve, M.P.; Gogate, P.R.; Pandit, A.B.; Csoka, L., 2014:
Hydrodynamic cavitation as a novel approach for delignification of wheat straw for paper manufacturing

Itah, Z.; Oral, O.; Perk, O.Yavuz.; Sesen, M.; Demir, E.; Erbil, S.; Dogan-Ekici, A.Isin.; Ekici, S.; Kosar, A.; Gozuacik, D., 2014:
Hydrodynamic cavitation kills prostate cells and ablates benign prostatic hyperplasia tissue

Li, J.; Yao, Q.; Liu, D., 2012:
Hydrodynamic cell delivery for simultaneous establishment of tumor growth in mouse lung, liver and kidney

Watkins, S.; Sontheimer, H., 2012:
Hydrodynamic cellular volume changes enable glioma cell invasion

Brey, J.Javier.; Ruiz-Montero, M.J., 2009:
Hydrodynamic character of the nonequipartition of kinetic energy in binary granular gases

Zhang, Q.H.; Wu, X.; Xue, S.Z.; Wang, Z.H.; Yan, C.H.; Cong, W., 2014:
Hydrodynamic characteristics and microalgae cultivation in a novel flat-plate photobioreactor

Behzadian, F.; Yerushalmi, L.; Alimahmoodi, M.; Mulligan, C.N., 2014:
Hydrodynamic characteristics and overall volumetric oxygen transfer coefficient of a new multi-environment bioreactor

John, S.; Tare, V., 2013:
Hydrodynamic characteristics of UASB bioreactors

Soda, A.; Tanaka, R.; Saida, Y.; Takashima, K.; Hirayama, T.; Umezu, M.; Yamane, Y., 2009:
Hydrodynamic characteristics of porcine aortic valves cross-linked with glutaraldehyde and polyepoxy compounds

Lee, H.; Taenaka, Y., 2007:
Hydrodynamic characteristics of the Edwards MIRA bileaflet valve in a pneumatic ventricular assist device

Sagong, W.; Jeon, W-Pyung.; Choi, H., 2014:
Hydrodynamic characteristics of the sailfish (Istiophorus platypterus) and swordfish (Xiphias gladius) in gliding postures at their cruise speeds

Islam, M.S.; Bonner, J.S.; Edge, B.L.; Page, C.A., 2015:
Hydrodynamic characterization of Corpus Christi Bay through modeling and observation

Arnold, M.S.; Suntivich, J.; Stupp, S.I.; Hersam, M.C., 2009:
Hydrodynamic characterization of surfactant encapsulated carbon nanotubes using an analytical ultracentrifuge

Striegel, Aé.M.; Brewer, A.K., 2012:
Hydrodynamic chromatography

Shendruk, T.N.; Slater, G.W., 2014:
Hydrodynamic chromatography and field flow fractionation in finite aspect ratio channels

Rakcheev, D.; Philippe, A.; Schaumann, G.E., 2013:
Hydrodynamic chromatography coupled with single particle-inductively coupled plasma mass spectrometry for investigating nanoparticles agglomerates

Thompson, J.Will.; Lieberman, R.A.; Jorgenson, J.W., 2009 :
Hydrodynamic chromatography for the size classification of micron and sub-micron sized packing materials

Brewer, A.K.; Striegel, Aé.M., 2010:
Hydrodynamic chromatography of latex blends

Edam, R.; Eeltink, S.; Vanhoutte, D.J.D.; Kok, W.Th.; Schoenmakers, P.J., 2012:
Hydrodynamic chromatography of macromolecules using polymer monolithic columns

Op de Beeck, J.; De Malsche, W.; Vangelooven, J.; Gardeniers, H.; Desmet, G., 2010:
Hydrodynamic chromatography of polystyrene microparticles in micropillar array columns

Takeuchi, T.; Siswoyo; Aspanut, Z.; Lim, L.Wah., 2009:
Hydrodynamic chromatography of silica colloids on small spherical nonporous silica particles

Pergantis, S.A.; Jones-Lepp, T.L.; Heithmar, E.M., 2012:
Hydrodynamic chromatography online with single particle-inductively coupled plasma mass spectrometry for ultratrace detection of metal-containing nanoparticles

Op de Beeck, J.; De Malsche, W.; De Moor, P.; Desmet, G., 2012:
Hydrodynamic chromatography separations in micro- and nanopillar arrays produced using deep-UV lithography

Striegel, Aé.M., 2012:
Hydrodynamic chromatography: packed columns, multiple detectors, and microcapillaries

Zbiljić, J.; Vajdle, O.; Guzsvány, Véria.; Molnar, J.; Agbaba, J.; Dalmacija, Bžo.; Kalcher, K., 2016:
Hydrodynamic chronoamperometric method for the determination of H₂O₂ using MnO₂-based carbon paste electrodes in groundwater treated by Fenton and Fenton-like reagents for natural organic matter removal

Bakhtiary, F.; Dzemali, O.; Steinseiffer, U.; Schmitz, C.; Glasmacher, B.; Moritz, A.; Kleine, P., 2008 :
Hydrodynamic comparison of biological prostheses during progressive valve calcification in a simulated exercise situation. An in vitro study

Simon, S.Douglas.; Grey, C.Paul., 2014:
Hydrodynamic comparison of the Penumbra system and commonly available syringes in forced-suction thrombectomy

Morga-Ramírez, M.; Collados-Larumbe, Mía.Teresa.; Johnson, K.E.; Rivas-Arreola, Mía.José.; Carrillo-Cocom, L.Maribel.; Alvarez, M.Moisés., 2010:
Hydrodynamic conditions induce changes in secretion level and glycosylation patterns of Von Willebrand factor (vWF) in endothelial cells

Van Wassenbergh, S.; Brecko, J.; Aerts, P.; Stouten, I.; Vanheusden, G.; Camps, A.; Van Damme, R.; Herrel, A., 2010:
Hydrodynamic constraints on prey-capture performance in forward-striking snakes

Yamada, M.; Doi, S.; Maenaka, H.; Yasuda, M.; Seki, M., 2008:
Hydrodynamic control of droplet division in bifurcating microchannel and its application to particle synthesis

Tung, R.C.; Killgore, J.P.; Hurley, D.C., 2013:
Hydrodynamic corrections to contact resonance atomic force microscopy measurements of viscoelastic loss tangent

Vollmayr-Lee, K.; Aspelmeier, T.; Zippelius, A., 2011:
Hydrodynamic correlation functions of a driven granular fluid in steady state

Singh, S.P.; Huang, C-Cheng.; Westphal, E.; Gompper, G.; Winkler, R.G., 2014:
Hydrodynamic correlations and diffusion coefficient of star polymers in solution

Huang, C-Cheng.; Gompper, G.; Winkler, R.G., 2013:
Hydrodynamic correlations in multiparticle collision dynamics fluids

Fyta, M.; Melchionna, S.; Succi, S.; Kaxiras, E., 2008 :
Hydrodynamic correlations in the translocation of a biopolymer through a nanopore: theory and multiscale simulations

Herrera-Velarde, S.; Euán-Díaz, E.C.; Córdoba-Valdés, F.; Castañeda-Priego, Rón., 2013:
Hydrodynamic correlations in three-particle colloidal systems in harmonic traps

Ramachandran, S.; Komura, S., 2011:
Hydrodynamic coupling between two fluid membranes

Cicuta, G.M.; Kotar, J.; Brown, A.T.; Noh, J-Ho.; Cicuta, P., 2011:
Hydrodynamic coupling in polygonal arrays of colloids: experimental and analytical results

Bławzdziewicz, J.; Ekiel-Jezewska, M.L.; Wajnryb, E., 2010:
Hydrodynamic coupling of spherical particles to a planar fluid-fluid interface: theoretical analysis

Intartaglia, C.; Soria, L.; Porfiri, M., 2014:
Hydrodynamic coupling of two sharp-edged beams vibrating in a viscous fluid

Kalasin, S.; Santore, M.M., 2008:
Hydrodynamic crossover in dynamic microparticle adhesion on surfaces of controlled nanoscale heterogeneity

Baron, M.; Bławzdziewicz, J.; Wajnryb, E., 2008:
Hydrodynamic crystals: collective dynamics of regular arrays of spherical particles in a parallel-wall channel

Sonsteng, K.M.; Prigge, J.R.; Talago, E.A.; June, R.K.; Schmidt, E.E., 2016:
Hydrodynamic delivery of Cre protein to lineage-mark or time-stamp mouse hepatocytes in situ

Gao, M.; Ma, Y.; Cui, R.; Liu, D., 2015:
Hydrodynamic delivery of FGF21 gene alleviates obesity and fatty liver in mice fed a high-fat diet

Qiu, C.; Li, Y.; Zhou, M.; Liu, J.; Li, M.; Wu, Y.; Xu, D.; Li, M., 2014:
Hydrodynamic delivery of IL-28B (IFN-λ3) gene ameliorates lung inflammation induced by cigarette smoke exposure in mice

Shi, Q.; Wang, H.; Tran, C.; Qiu, X.; Winnik, Fçoise.M.; Zhang, X.; Dai, K.; Benderdour, M.; Fernandes, J.C., 2011:
Hydrodynamic delivery of chitosan-folate-DNA nanoparticles in rats with adjuvant-induced arthritis

Wesche-Soldato, D.E.; Lomas-Neira, J.; Perl, M.; Chung, C-Shiang.; Ayala, A., 2008:
Hydrodynamic delivery of siRNA in a mouse model of sepsis

Rychahou, P.G.; Evers, B.Mark., 2010:
Hydrodynamic delivery protocols

Chekmarev, S.F.; Palyanov, A.Yu.; Karplus, M., 2008:
Hydrodynamic description of protein folding

Frydel, D.; Rice, S.A., 2008:
Hydrodynamic description of the long-time tails of the linear and rotational velocity autocorrelation functions of a particle in a confined geometry

Andreev, A.V.; Kivelson, S.A.; Spivak, B., 2011:
Hydrodynamic description of transport in strongly correlated electron systems

Compton, J.L.; Hellman, A.N.; Venugopalan, V., 2014:
Hydrodynamic determinants of cell necrosis and molecular delivery produced by pulsed laser microbeam irradiation of adherent cells

Ruddle, C.J., 2007:
Hydrodynamic disinfection: tsunami endodontics

Fridjonsson, E.O.; Bernin, D.; Seymour, J.D.; Nydén, M.; Codd, S.L., 2011 :
Hydrodynamic dispersion in β-lactoglobulin gels measured by PGSE NMR

Davit, Y.; Byrne, H.; Osborne, J.; Pitt-Francis, J.; Gavaghan, D.; Quintard, M., 2013:
Hydrodynamic dispersion within porous biofilms

Marinho, D.A.; Reis, V.M.; Alves, F.B.; Vilas-Boas, Jão.P.; Machado, L.; Silva, Aónio.J.; Rouboa, A.I., 2010:
Hydrodynamic drag during gliding in swimming

Maali, A.; Pan, Y.; Bhushan, B.; Charlaix, E., 2013:
Hydrodynamic drag-force measurement and slip length on microstructured surfaces

Szymczak, P.; Cieplak, M., 2011:
Hydrodynamic effects in proteins

Izaki, K.; Kimura, Y., 2013:
Hydrodynamic effects in the measurement of interparticle forces in nematic colloids

Xia, L.; Law, A.Wing-Keung.; Fane, A.G., 2014:
Hydrodynamic effects of air sparging on hollow fiber membranes in a bubble column reactor

Selvarasu, N.K.C.; Tafti, D.K.; Vlachos, P.P., 2011:
Hydrodynamic effects of compliance mismatch in stented arteries

Escobedo, C.; Tovar, F.; Vilá, A.; García, J.; Suárez, B.; Corona, F.; Sacristán, E., 2007:
Hydrodynamic effects of the partial opening of a trileaflet valve

Walczyk, W.; Hain, N.; Schönherr, H., 2014:
Hydrodynamic effects of the tip movement on surface nanobubbles: a combined tapping mode, lift mode and force volume mode AFM study

Kim, J.; Kim, H-Shin.; Han, S.; Lee, J-Yun.; Oh, J-Eung.; Chung, S.; Park, H-Deung., 2013:
Hydrodynamic effects on bacterial biofilm development in a microfluidic environment

Crusats, J.; El-Hachemi, Z.; Ribó, J.M., 2010:
Hydrodynamic effects on chiral induction

Fan, J.; Han, T.; Haataja, M., 2011:
Hydrodynamic effects on spinodal decomposition kinetics in planar lipid bilayer membranes

Honda, T.; Kawakatsu, T., 2008:
Hydrodynamic effects on the disorder-to-order transitions of diblock copolymer melts

Długosz, M.; Antosiewicz, J.M., 2013:
Hydrodynamic effects on the relative rotational velocity of associating proteins

Hernández-Ortiz, J.P.; Chopra, M.; Geier, S.; de Pablo, J.J., 2009:
Hydrodynamic effects on the translocation rate of a polymer through a pore

Pannuzzo, M.; Grassi, A.; Raudino, A., 2015:
Hydrodynamic enhancement of the diffusion rate in the region between two fluctuating membranes in close opposition: a theoretical and computational study

Giacché, D.; Ishikawa, T.; Yamaguchi, T., 2011:
Hydrodynamic entrapment of bacteria swimming near a solid surface

Passos, R.Gomes.; von Sperling, M.; Ribeiro, T.Bressani., 2014:
Hydrodynamic evaluation of a full-scale facultative pond by computational fluid dynamics (CFD) and field measurements

Minakawa, M.; Fukuda, I.; Inamura, T.; Yanaoka, H.; Fukui, K.; Daitoku, K.; Suzuki, Y.; Hashimoto, H., 2008 :
Hydrodynamic evaluation of axillary artery perfusion for normal and diseased aorta

Trenkwalder, A.; Kohstall, C.; Zaccanti, M.; Naik, D.; Sidorov, A.I.; Schreck, F.; Grimm, R., 2011:
Hydrodynamic expansion of a strongly interacting fermi-fermi mixture

Pawlik, J.R.; Butman, C.A.; Starczak, V.R., 1991:
Hydrodynamic facilitation of gregarious settlement of a reef-building tube worm

Woo, Y.; Heo, Y.; Shin, K.; Yi, G-Ra., 2013:
Hydrodynamic filtration in microfluidic channels as size-selection process for giant unilamellar vesicles

Nagatsu, Y.; Ishii, Y.; Tada, Y.; De Wit, A., 2014:
Hydrodynamic fingering instability induced by a precipitation reaction

Fish, F.E.; Howle, L.E.; Murray, M.M., 2008:
Hydrodynamic flow control in marine mammals

Shneider, M.N.; Gimatdinov, R.S.; Skorinkin, A.I.; Kovyazina, I.V.; Nikolsky, E.E., 2012:
Hydrodynamic flow in a synaptic cleft during exocytosis

Mao, M.; Ghosal, S.; Hu, G., 2013:
Hydrodynamic flow in the vicinity of a nanopore induced by an applied voltage

Ko, S.Hee.; Lee, H.; Kang, K.Hyoung., 2008:
Hydrodynamic flows in electrowetting

Desreumaux, N.; Caussin, J-Baptiste.; Jeanneret, R.; Lauga, E.; Bartolo, D., 2013:
Hydrodynamic fluctuations in confined particle-laden fluids

Híjar, H.; Sutmann, G., 2011:
Hydrodynamic fluctuations in thermostatted multiparticle collision dynamics

Bong, K.Wan.; Bong, K.Tae.; Pregibon, D.C.; Doyle, P.S., 2010:
Hydrodynamic focusing lithography

Nasir, M.; Ateya, D.A.; Burk, D.; Golden, J.P.; Ligler, F.S., 2010:
Hydrodynamic focusing of conducting fluids for conductivity-based biosensors

Golden, J.P.; Justin, G.A.; Nasir, M.; Ligler, F.S., 2012:
Hydrodynamic focusing--a versatile tool

Kaveh, F.; Ally, J.; Kappl, M.; Butt, H-Jürgen., 2015:
Hydrodynamic force between a sphere and a soft, elastic surface

Lv, C.; Zou, D.; Qin, M.; Meng, W.; Cao, Y.; Wang, W., 2013:
Hydrodynamic force depends not only on the viscosity of solution but also on the molecular weights of viscogens

James, G.K.; Walz, J.Y., 2011:
Hydrodynamic force on a microparticle approaching a wall in a nanoparticle dispersion: observation of a separation-dependent effective viscosity

Felderhof, B.U., 2012:
Hydrodynamic force on a particle oscillating in a viscous fluid near a wall with dynamic partial-slip boundary condition

Danov, K.D.; Danova, D.K.; Kralchevsky, P.A., 2007:
Hydrodynamic forces acting on a microscopic emulsion drop growing at a capillary tip in relation to the process of membrane emulsification

Vanni, M.; Gastaldi, A., 2011:
Hydrodynamic forces and critical stresses in low-density aggregates under shear flow

Tsai, D-Hao.; Cho, T.Joon.; DelRio, F.W.; Taurozzi, J.; Zachariah, M.R.; Hackley, V.A., 2011:
Hydrodynamic fractionation of finite size gold nanoparticle clusters

Cichocki, B.; Felderhof, B.U., 2009:
Hydrodynamic friction coefficients of coated spherical particles

Chen, P.; Feng, X.; Sun, J.; Wang, Y.; Du, W.; Liu, B-Feng., 2010:
Hydrodynamic gating for sample introduction on a microfluidic chip

Chen, P.; Feng, X.; Hu, R.; Sun, J.; Du, W.; Liu, B-Feng., 2010:
Hydrodynamic gating valve for microfluidic fluorescence-activated cell sorting

Bonamassa, B.; Hai, L.; Liu, D., 2011:
Hydrodynamic gene delivery and its applications in pharmaceutical research

Thomson, R.; Molina-Portela, P.; Mott, H.; Carrington, M.; Raper, J., 2009:
Hydrodynamic gene delivery of baboon trypanosome lytic factor eliminates both animal and human-infective African trypanosomes

Sawyer, G.J.; Rela, M.; Davenport, M.; Whitehorne, M.; Zhang, X.; Fabre, J.W., 2009:
Hydrodynamic gene delivery to the liver: theoretical and practical issues for clinical application

Naemi, R.; Easson, W.J.; Sanders, R.H., 2010:
Hydrodynamic glide efficiency in swimming

Heller, M.P.; Janik, R.A.; Witaszczyk, Pław., 2013:
Hydrodynamic gradient expansion in gauge theory plasmas

Reyes, F.Vega.; Garzó, V.; Khalil, N., 2015:
Hydrodynamic granular segregation induced by boundary heating and shear

Lottes, F.; Arlt, W.; Minceva, M.; Stenby, E.H., 2009:
Hydrodynamic impact of particle shape in slurry packed liquid chromatography columns

Wang, J-jun.; Li, Y-ru.; Zhang, H-ying.; Li, X-min.; Wang, L., 2008:
Hydrodynamic injection mediated IL-12 gene therapy for orthotopic transplanted liver cancers in mice

Aryafar, H.; Kavehpour, H.P., 2008:
Hydrodynamic instabilities of viscous coalescing droplets

Pópity-Tóth, Éva.; Pimienta, Véronique.; Horváth, Dő.; Tóth, Ágota., 2013:
Hydrodynamic instability in the open system of the iodate-arsenous acid reaction

Hejazi, S.H.; Azaiez, J., 2010:
Hydrodynamic instability in the transport of miscible reactive slices through porous media

Trillo, S.; Valiani, A., 2010:
Hydrodynamic instability of multiple four-wave mixing

Nekhamkina, O.; Sheintuch, M., 2014:
Hydrodynamic instability of thermal fronts in reactive porous media: spinning patterns

Vahidkhah, K.; Diamond, S.L.; Bagchi, P., 2014:
Hydrodynamic interaction between a platelet and an erythrocyte: effect of erythrocyte deformability, dynamics, and wall proximity

Leroy, S.; Steinberger, A.; Cottin-Bizonne, Cécile.; Restagno, Fédéric.; Léger, L.; Charlaix, Élisabeth., 2012:
Hydrodynamic interaction between a spherical particle and an elastic surface: a gentle probe for soft thin Films

Han, T.; Bailey, T.P.; Haataja, M., 2015:
Hydrodynamic interaction between overlapping domains during recurrence of registration within planar lipid bilayer membranes

Le, D-Vinh.; Chiam, K-H., 2012:
Hydrodynamic interaction between two nonspherical capsules in shear flow

Pooley, C.M.; Alexander, G.P.; Yeomans, J.M., 2008:
Hydrodynamic interaction between two swimmers at low Reynolds number

Matas Navarro, R.; Pagonabarraga, I., 2011:
Hydrodynamic interaction between two trapped swimming model micro-organisms

Gires, P.Y.; Danker, G.; Misbah, C., 2013:
Hydrodynamic interaction between two vesicles in a linear shear flow: asymptotic study

Jiang, H.; Hou, Z., 2015:
Hydrodynamic interaction induced spontaneous rotation of coupled active filaments

Li, G-Jin.; Ardekani, A.M., 2015:
Hydrodynamic interaction of microswimmers near a wall

Chen, Y.; Wang, C., 2015:
Hydrodynamic interaction of two deformable drops in confined shear flow

Giacché, D.; Ishikawa, T., 2011:
Hydrodynamic interaction of two unsteady model microorganisms

Delmotte, B.; Climent, E.; Plouraboué, F., 2014:
Hydrodynamic interactions among large populations of swimming micro-organisms

Bonilla-Capilla, B.; Ramírez-Saito, A.; Ojeda-López, M.A.; Arauz-Lara, J.L., 2012:
Hydrodynamic interactions between colloidal particles in a planar pore

Cichocki, B.; Ekiel-Jezewska, M.L.; Wajnryb, E., 2007:
Hydrodynamic interactions between spheres in a viscous fluid with a flat free surface or hard wall

Snijkers, F.; Pasquino, R.; Vermant, J., 2013:
Hydrodynamic interactions between two equally sized spheres in viscoelastic fluids in shear flow

Young, Y-N., 2009:
Hydrodynamic interactions between two semiflexible inextensible filaments in Stokes flow

Pan, W.; Fedosov, D.A.; Karniadakis, G.Em.; Caswell, B., 2008:
Hydrodynamic interactions for single dissipative-particle-dynamics particles and their clusters and filaments

Weeber, R.; Harting, J., 2013:
Hydrodynamic interactions in active colloidal crystal microrheology

Kim, E.; Stratford, K.; Camp, P.J.; Cates, M.E., 2008:
Hydrodynamic interactions in colloidal ferrofluids: a lattice Boltzmann study

Rose, K.A.; Hoffman, B.; Saintillan, D.; Shaqfeh, E.S.G.; Santiago, J.G., 2009:
Hydrodynamic interactions in metal rodlike-particle suspensions due to induced charge electroosmosis

Cieplak, M.; Niewieczerzał, S., 2009:
Hydrodynamic interactions in protein folding

Novikov, S.; Rice, S.A.; Cui, B.; Diamant, H.; Lin, B., 2011:
Hydrodynamic interactions in ribbon channels: from quasi-one-dimensional to quasi-two-dimensional behavior

Di Leonardo, R.; Keen, S.; Ianni, F.; Leach, J.; Padgett, M.J.; Ruocco, G., 2008:
Hydrodynamic interactions in two dimensions

Bleibel, J.; Domínguez, A.; Günther, F.; Harting, J.; Oettel, M., 2014:
Hydrodynamic interactions induce anomalous diffusion under partial confinement

Fornés, Jé.A., 2009:
Hydrodynamic interactions induce movement against an external load in a ratchet dimer Brownian motor

Rad, S.Hosseini.; Najafi, A., 2011:
Hydrodynamic interactions of spherical particles in a fluid confined by a rough no-slip wall

Roehm, D.; Kesselheim, S.; Arnold, A., 2014:
Hydrodynamic interactions slow down crystallization of soft colloids

Sadlej, K.; Wajnryb, E.; Ekiel-Jezewska, M.L., 2010:
Hydrodynamic interactions suppress deformation of suspension drops in Poiseuille flow

Miyake, Y.; Akai, N.; Kawai, A.; Shibuya, K., 2011:
Hydrodynamic interpretation on the rotational diffusion of peroxylamine disulfonate solute dissolved in room temperature ionic liquids as studied by electron paramagnetic resonance spectroscopy

Wen, L.; Wang, T.M.; Wu, G.H.; Liang, J.H., 2012:
Hydrodynamic investigation of a self-propelled robotic fish based on a force-feedback control method

Guasto, J.S.; Ross, A.S.; Gollub, J.P., 2010:
Hydrodynamic irreversibility in particle suspensions with nonuniform strain

Geislinger, T.M.; Franke, T., 2015:
Hydrodynamic lift of vesicles and red blood cells in flow--from Fåhræus & Lindqvist to microfluidic cell sorting

Qiao, C.; Li, J.; Zheng, H.; Bogan, J.; Li, J.; Yuan, Z.; Zhang, C.; Bogan, D.; Kornegay, J.; Xiao, X., 2008:
Hydrodynamic limb vein injection of adeno-associated virus serotype 8 vector carrying canine myostatin propeptide gene into normal dogs enhances muscle growth

Viero, Y.; He, Q.; Bancaud, Aélien., 2012:
Hydrodynamic manipulation of DNA in nanopost arrays: unhooking dynamics and size separation

Ishii, K.; Iwai, T.; Xia, H., 2010:
Hydrodynamic measurement of Brownian particles at a liquid-solid interface by low-coherence dynamic light scattering

Prieve, D.C.; Alexander, B.M., 1986:
Hydrodynamic measurement of double-layer repulsion between colloidal particle and flat plate

Karimi, A.; Yazdi, S.; Ardekani, A.M., 2014:
Hydrodynamic mechanisms of cell and particle trapping in microfluidics

Winkler, A.; Virnau, P.; Binder, K.; Winkler, R.G.; Gompper, G., 2013:
Hydrodynamic mechanisms of spinodal decomposition in confined colloid-polymer mixtures: a multiparticle collision dynamics study

At'kova, E.L.; Beloglazov, V.G.; El'-Saed, S.A.; Abdurakhmanov, G.A.; Popov, E.G.; Limonov, E.V., 2011:
Hydrodynamic method for diagnosing impaired patency of the lacrimal tract

Lubarsky, G.V.; Hähner, G., 2008:
Hydrodynamic methods for calibrating the normal spring constant of microcantilevers

Wang, G.M.; Prabhakar, R.; Sevick, E.M., 2010:
Hydrodynamic mobility of an optically trapped colloidal particle near fluid-fluid interfaces

Keaveny, E.E.; Shelley, M.J., 2009:
Hydrodynamic mobility of chiral colloidal aggregates

van Sonsbeek, H.M.; Verdurmen, R.E.; Verlaan, P.; Tramper, J., 1990:
Hydrodynamic model for liquid-impelled loop reactors

Ciracì, C.; Pendry, J.B.; Smith, D.R., 2013:
Hydrodynamic model for plasmonics: a macroscopic approach to a microscopic problem

Yuan, Y.; Kilduff, J.E., 2009:
Hydrodynamic modeling of NOM transport in UF: effects of charge density and ionic strength on effective size and sieving

Barone, V.; Zerbetto, M.; Polimeno, A., 2008:
Hydrodynamic modeling of diffusion tensor properties of flexible molecules

Jop, P., 2008:
Hydrodynamic modeling of granular flows in a modified Couette cell

Weng, H.Chu., 2014:
Hydrodynamic modeling of targeted magnetic-particle delivery in a blood vessel

Byron, O., 2007:
Hydrodynamic modeling: the solution conformation of macromolecules and their complexes

García de la Torre, Jé.; Harding, S.E., 2013:
Hydrodynamic modelling of protein conformation in solution: ELLIPS and HYDRO

Brito, R.; Risso, D.; Soto, R., 2013:
Hydrodynamic modes in a confined granular fluid

Sargent, C.Y.; Berguig, G.Y.; Kinney, M.A.; Hiatt, L.A.; Carpenedo, R.L.; Berson, R.Eric.; McDevitt, T.C., 2010:
Hydrodynamic modulation of embryonic stem cell differentiation by rotary orbital suspension culture

Wang, J., 1981:
Hydrodynamic modulation voltammetry

Zipper, P.; Durchschlag, H., 2014:
Hydrodynamic multibead modeling: problems, pitfalls and solutions. 3. Comparison of new approaches for improved predictions of translational properties

Zipper, P.; Durchschlag, H., 2010:
Hydrodynamic multibead modeling: problems, pitfalls, and solutions. 1. Ellipsoid models

Zipper, P.; Durchschlag, H., 2010:
Hydrodynamic multibead modeling: problems, pitfalls, and solutions. 2. Proteins

Sichert, A.B.; Bamler, R.; van Hemmen, J.Leo., 2009:
Hydrodynamic object recognition: when multipoles count

Kennedy, M.J.; Stelick, S.J.; Sayam, L.G.; Yen, A.; Erickson, D.; Batt, C.A., 2011:
Hydrodynamic optical alignment for microflow cytometry

Ekiel-Jeżewska, M.L.; Wajnryb, E., 2009:
Hydrodynamic orienting of asymmetric microobjects under gravity

Sokolov, Y.; Frydel, D.; Grier, D.G.; Diamant, H.; Roichman, Y., 2011:
Hydrodynamic pair attractions between driven colloidal particles

Bueno, E.M.; Bilgen, B.; Barabino, G.A., 2008:
Hydrodynamic parameters modulate biochemical, histological, and mechanical properties of engineered cartilage

Zhou, T.; Liu, Z.; Wu, Y.; Deng, Y.; Liu, Y.; Liu, G., 2014:
Hydrodynamic particle focusing design using fluid-particle interaction

Agathos, E.Andreas.; Shen, M.; Styrc, W.; Giannakopoulou, S.; Lachanas, E.; Tomos, P., 2013:
Hydrodynamic performance of a prototype bioprosthetic valve derived from the pulmonary valve of Phoca groenlandica

Susin, F.Maria.; Bagno, A.; Gerosa, G., 2010:
Hydrodynamic performance of heart valve prostheses: open discussion on European Committee for Standardization International Organization for Standardization standard 5840

Deo, S.; Filippov, A.; Tiwari, A.; Vasin, S.; Starov, V., 2010:
Hydrodynamic permeability of aggregates of porous particles with an impermeable core

Vasin, S.I.; Filippov, A.N.; Starov, V.M., 2008:
Hydrodynamic permeability of membranes built up by particles covered by porous shells: cell models

Takamatsu, A.; Shinohara, K.; Ishikawa, T.; Hamada, H., 2015:
Hydrodynamic phase locking in mouse node cilia

Elfring, G.J.; Lauga, E., 2009:
Hydrodynamic phase locking of swimming microorganisms

Venturelli, R.; Akanyeti, O.; Visentin, F.; Ježov, J.; Chambers, L.D.; Toming, G.; Brown, J.; Kruusmaa, M.; Megill, W.M.; Fiorini, P., 2012:
Hydrodynamic pressure sensing with an artificial lateral line in steady and unsteady flows

Wierzcholski, K.Ch., 2010:
Hydrodynamic pressure, carrying capacities, friction forces in biobearing gap

Mei, C.C., 2011:
Hydrodynamic principles of wave power extraction

Barbosa, T.M.; Morais, J.E.; Marques, M.C.; Silva, A.J.; Marinho, D.A.; Kee, Y.H., 2015:
Hydrodynamic profile of young swimmers: changes over a competitive season

Pavlov, G.M.; Korneeva, E.V.; Smolina, N.A.; Schubert, U.S., 2010:
Hydrodynamic properties of cyclodextrin molecules in dilute solutions

Göhler, A.; André, S.; Kaltner, H.; Sauer, M.; Gabius, H-Joachim.; Doose, Sören., 2010:
Hydrodynamic properties of human adhesion/growth-regulatory galectins studied by fluorescence correlation spectroscopy

Martchenko, I.; Dietsch, Hé.; Moitzi, C.; Schurtenberger, P., 2011:
Hydrodynamic properties of magnetic nanoparticles with tunable shape anisotropy: prediction and experimental verification

Harshe, Y.M.; Ehrl, L.; Lattuada, M., 2011:
Hydrodynamic properties of rigid fractal aggregates of arbitrary morphology

Czosnyka, Z.; Pickard, J.D.; Czosnyka, M., 2013:
Hydrodynamic properties of the Certas hydrocephalus shunt

Niwayama, R.; Shinohara, K.; Kimura, A., 2011:
Hydrodynamic property of the cytoplasm is sufficient to mediate cytoplasmic streaming in the Caenorhabditis elegans embryo

Adamczyk, Z.; Sadlej, K.; Wajnryb, E.; Ekiel-Jezewska, M.L.; Warszyński, P., 2010 :
Hydrodynamic radii and diffusion coefficients of particle aggregates derived from the bead model

Cichocki, B.; Ekiel-Jeżewska, M.L.; Wajnryb, E., 2014:
Hydrodynamic radius approximation for spherical particles suspended in a viscous fluid: influence of particle internal structure and boundary

Håkansson, A.; Magnusson, E.; Bergenståhl, Börn.; Nilsson, L., 2012:
Hydrodynamic radius determination with asymmetrical flow field-flow fractionation using decaying cross-flows. Part I. A theoretical approach

Magnusson, E.; Håkansson, A.; Janiak, J.; Bergenståhl, Börn.; Nilsson, L., 2012:
Hydrodynamic radius determination with asymmetrical flow field-flow fractionation using decaying cross-flows. Part II. Experimental evaluation

Llopis, I.; Pagonabarraga, I., 2008:
Hydrodynamic regimes of active rotators at fluid interfaces

Gashev, A.A.; Zawieja, D.C., 2010:
Hydrodynamic regulation of lymphatic transport and the impact of aging

Evani, S.J.; Murthy, A.K.; Mareedu, N.; Montgomery, R.K.; Arulanandam, B.P.; Ramasubramanian, A.K., 2011:
Hydrodynamic regulation of monocyte inflammatory response to an intracellular pathogen

Kim, T.Beom.; Chang, J.Hyun.; Yoon, S.Jin.; Kim, S.Woong., 2012:
Hydrodynamic relationship between color Doppler ultrasonography findings and the number of internal spermatic veins in varicoceles

Rodgers, D.J.; Servidio, S.; Matthaeus, W.H.; Montgomery, D.C.; Mitchell, T.B.; Aziz, T., 2009:
Hydrodynamic relaxation of an electron plasma to a near-maximum entropy state

Sochol, R.D.; Dueck, M.E.; Li, S.; Lee, L.P.; Lin, L., 2013 :
Hydrodynamic resettability for a microfluidic particulate-based arraying system

Vanapalli, S.A.; Banpurkar, A.G.; van den Ende, D.; Duits, M.H.G.; Mugele, F., 2009:
Hydrodynamic resistance of single confined moving drops in rectangular microchannels

von Hansen, Y.; Hinczewski, M.; Netz, R.R., 2011:
Hydrodynamic screening near planar boundaries: effects on semiflexible polymer dynamics

Ripoll, M.; Winkler, R.G.; Gompper, G., 2007:
Hydrodynamic screening of star polymers in shear flow

Kamata, K.; Araki, T.; Tanaka, H., 2009:
Hydrodynamic selection of the kinetic pathway of a polymer coil-globule transition

Hawkins, C.; Angheluta, L.; Jamtveit, Børn., 2014:
Hydrodynamic shadowing effect during precipitation of dendrites in channel flow

Boyd, D.A.; Shields, A.R.; Naciri, J.; Ligler, F.S., 2012:
Hydrodynamic shaping, polymerization, and subsequent modification of thiol click fibers

Kawahara, D.; Matsuda, T., 2012:
Hydrodynamic shear-stress-dependent retention of endothelial and endothelial progenitor cells adhered to vascular endothelial growth factor-fixed surfaces

Nesterova, I.V.; Hupert, M.L.; Witek, M.A.; Soper, S.A., 2012:
Hydrodynamic shearing of DNA in a polymeric microfluidic device

Yang, M.; Wysocki, A.; Ripoll, M., 2014:
Hydrodynamic simulations of self-phoretic microswimmers

Böhme, U.; Scheler, U., 2007:
Hydrodynamic size and charge of polyelectrolyte complexes

Devínsky, F.; Pisárcik, M.; Lacko, I., 2009:
Hydrodynamic size of DNA/cationic gemini surfactant complex as a function of surfactant structure

Dong, C.; Irudayaraj, J., 2013:
Hydrodynamic size-dependent cellular uptake of aqueous QDs probed by fluorescence correlation spectroscopy

Galla, L.; Meyer, A.J.; Spiering, A.; Sischka, A.; Mayer, M.; Hall, A.R.; Reimann, P.; Anselmetti, D., 2015:
Hydrodynamic slip on DNA observed by optical tweezers-controlled translocation experiments with solid-state and lipid-coated nanopores

Costa, Cédric.; Doche, M-Laure.; Hihn, J-Yves.; Bisel, I.; Moisy, P.; Lévêque, J-Marc., 2009:
Hydrodynamic sono-voltammetry of ferrocene in [Tf2N]- based ionic liquid media

Hu, M.; Deng, R.; Schumacher, K.M.; Kurisawa, M.; Ye, H.; Purnamawati, K.; Ying, J.Y., 2010:
Hydrodynamic spinning of hydrogel fibers

Dougherty, E.; Rivera, G.; Blob, R.; Wyneken, J., 2010:
Hydrodynamic stability in posthatchling loggerhead (Caretta caretta) and green (Chelonia mydas) sea turtles

Trefethen, L.N.; Trefethen, A.E.; Reddy, S.C.; Driscoll, T.A., 1993:
Hydrodynamic stability without eigenvalues

China, V.; Holzman, R., 2014:
Hydrodynamic starvation in first-feeding larval fishes

Tissot, Séphanie.; Reclari, M.; Quinodoz, S.; Dreyer, M.; Monteil, D.T.; Baldi, L.; Hacker, D.L.; Farhat, M.; Discacciati, M.; Quarteroni, A.; Wurm, F.M., 2012:
Hydrodynamic stress in orbitally shaken bioreactors

Seto, R.; Botet, R.; Briesen, H., 2011:
Hydrodynamic stress on small colloidal aggregates in shear flow using Stokesian dynamics

Trujillo-Roldán, M.A.; Valdez-Cruz, N.A., 2008:
Hydrodynamic stress: death and cellular damage in agitated cultures

Gossett, D.R.; Tse, H.T.K.; Lee, S.A.; Ying, Y.; Lindgren, A.G.; Yang, O.O.; Rao, J.; Clark, A.T.; Di Carlo, D., 2012:
Hydrodynamic stretching of single cells for large population mechanical phenotyping

Rengel, A.; Zoughaib, A.; Dron, D.; Clodic, D., 2012:
Hydrodynamic study of an internal airlift reactor for microalgae culture

Oliva, E.; Zeitoun, P.; Velarde, P.; Fajardo, M.; Cassou, K.; Ros, D.; Sebban, S.; Portillo, D.; le Pape, S., 2011:
Hydrodynamic study of plasma amplifiers for soft-x-ray lasers: a transition in hydrodynamic behavior for plasma columns with widths ranging from 20 μm to 2 mm

Chabchoub, A.; Hoffmann, N.; Onorato, M.; Genty, G.; Dudley, J.M.; Akhmediev, N., 2013:
Hydrodynamic supercontinuum

Matas-Navarro, R.; Golestanian, R.; Liverpool, T.B.; Fielding, S.M., 2015:
Hydrodynamic suppression of phase separation in active suspensions

Hill, J.; Kalkanci, O.; McMurry, J.L.; Koser, H., 2007:
Hydrodynamic surface interactions enable Escherichia coli to seek efficient routes to swim upstream

Brumley, D.R.; Polin, M.; Pedley, T.J.; Goldstein, R.E., 2013:
Hydrodynamic synchronization and metachronal waves on the surface of the colonial alga Volvox carteri

Uchida, N.; Golestanian, R., 2013:
Hydrodynamic synchronization between objects with cyclic rigid trajectories

Kotar, J.; Leoni, M.; Bassetti, B.; Lagomarsino, M.Cosentino.; Cicuta, P., 2010:
Hydrodynamic synchronization of colloidal oscillators

Di Leonardo, R.; Búzás, A.; Kelemen, L.; Vizsnyiczai, G.; Oroszi, L.; Ormos, P., 2012:
Hydrodynamic synchronization of light driven microrotors

Leoni, M.; Liverpool, T.B., 2012:
Hydrodynamic synchronization of nonlinear oscillators at low Reynolds number

Liu, Z.; Gan, L.; Yang, X.; Zhang, Z.; Sun, C., 2014:
Hydrodynamic tail vein injection of SOCS3 eukaryotic expression vector in vivo promoted liver lipid metabolism and hepatocyte apoptosis in mouse

Ovchinnikov, I.V.; Bartell, L.A.; Neuhauser, D., 2007:
Hydrodynamic tensor density functional theory with correct susceptibility

Shukla, P.K.; Akbari-Moghanjoughi, M., 2013:
Hydrodynamic theory for ion structure and stopping power in quantum plasmas

Kirkinis, E.; Davis, S.H., 2013:
Hydrodynamic theory of liquid slippage on a solid substrate near a moving contact line

Mahle, S.; Ilg, P.; Liu, M., 2008:
Hydrodynamic theory of polydisperse chain-forming ferrofluids

Gläser, N.; Wieskotten, S.; Otter, C.; Dehnhardt, G.; Hanke, W., 2011:
Hydrodynamic trail following in a California sea lion (Zalophus californianus)

Wickramarathna, L.N.; Noss, C.; Lorke, A., 2015:
Hydrodynamic trails produced by Daphnia: size and energetics

Chen, X.; Calvisi, D.F., 2014:
Hydrodynamic transfection for generation of novel mouse models for liver cancer research

Fujie, T.; Park, J.Young.; Murata, A.; Estillore, N.C.; Tria, M.Celeste.R.; Takeoka, S.; Advincula, R.C., 2010:
Hydrodynamic transformation of a freestanding polymer nanosheet induced by a thermoresponsive surface

Saruya, T.; Rempel, A.W.; Kurita, K., 2014:
Hydrodynamic transitions with changing particle size that control ice lens growth

Tanyeri, M.; Johnson-Chavarria, E.M.; Schroeder, C.M., 2010:
Hydrodynamic trap for single particles and cells

Kumano, I.; Hosoda, K.; Suzuki, H.; Hirata, K.; Yomo, T., 2012:
Hydrodynamic trapping of Tetrahymena thermophila for the long-term monitoring of cell behaviors

Jönsson, P.; McColl, J.; Clarke, R.W.; Ostanin, V.P.; Jönsson, B.; Klenerman, D., 2012:
Hydrodynamic trapping of molecules in lipid bilayers

Gibson, J.; Droppo, I.G.; Farnood, R.; Mahendran, B.; Seto, P.; Liss, S.N., 2012:
Hydrodynamic treatment of wastewater effluent flocs for improved disinfection

Ruelle, D.P., 2012:
Hydrodynamic turbulence as a problem in nonequilibrium statistical mechanics

Lieu, V.H.; House, T.A.; Schwartz, D.T., 2012:
Hydrodynamic tweezers: impact of design geometry on flow and microparticle trapping

Velázquez-Cayón, R.; Romero-Ruiz, M-M.; Torres-Lagares, D.; Pérez-Dorao, B.; Wainwright, M.; Abalos-Labruzzi, C.; Gutiérrez-Pérez, J-L., 2012:
Hydrodynamic ultrasonic maxillary sinus lift: review of a new technique and presentation of a clinical case

Troedhan, A.C.; Kurrek, A.; Wainwright, M.; Jank, S., 2010:
Hydrodynamic ultrasonic sinus floor elevation--an experimental study in sheep

Isenberg, S.L.; Brewer, A.K.; Côté, G.L.; Striegel, Aé.M., 2011:
Hydrodynamic versus size exclusion chromatography characterization of alternan and comparison to off-line MALS

Chou, C-Chun.; Sanz, A.S.; Miret-Artés, S.; Wyatt, R.E., 2009:
Hydrodynamic view of wave-packet interference: quantum caves

Zhen, W.; Qiang, C., 1987:
Hydrodynamic voltammetry at tubular electrodes-III Determination of traces of bismuth by differential-pulse anodic-stripping voltammetry at a glassy-carbon tubular electrode with in situ mercury plating

Bai, G.; Armenante, P.M., 2008:
Hydrodynamic, mass transfer, and dissolution effects induced by tablet location during dissolution testing

Vakili, S.; Ebrahimi, S.Sadat.Seyyed.; Sadeghi, A.; Gorgani-Firuzjaee, S.; Beigy, M.; Pasalar, P.; Meshkani, R., 2014:
Hydrodynamic-based delivery of PTP1B shRNA reduces plasma glucose levels in diabetic mice

Camporeale, C.; Ridolfi, L., 2012:
Hydrodynamic-driven stability analysis of morphological patterns on stalactites and implications for cave paleoflow reconstructions

Raudino, A.; Pannuzzo, M., 2013:
Hydrodynamic-induced enantiomeric enrichment of self-assemblies: role of the solid-liquid interface in chiral nucleation and seeding

Leclerc, Jérémie.; Lefèvre, T.; Gauthier, M.; Gagné, Séphane.M.; Auger, Mèle., 2016:
Hydrodynamical properties of recombinant spider silk proteins: Effects of pH, salts and shear, and implications for the spinning process

Glampedakis, K.; Andersson, N., 2009:
Hydrodynamical trigger mechanism for pulsar glitches

Colosqui, C.E.; Morris, J.F.; Stone, H.A., 2013:
Hydrodynamically driven colloidal assembly in dip coating

He, J.; Wei, Z.; Wang, L.; Tomova, Z.; Babu, T.; Wang, C.; Han, X.; Fourkas, J.T.; Nie, Z., 2014:
Hydrodynamically driven self-assembly of giant vesicles of metal nanoparticles for remote-controlled release

Ai, B-quan.; He, Y-feng.; Li, F-guo.; Zhong, W-rong., 2013:
Hydrodynamically enforced entropic Brownian pump

Martens, S.; Straube, A.V.; Schmid, G.; Schimansky-Geier, L.; Hänggi, P., 2013:
Hydrodynamically enforced entropic trapping of Brownian particles

Sassa, Y.; Shibata, S.; Iwashita, Y.; Kimura, Y., 2013:
Hydrodynamically induced rhythmic motion of optically driven colloidal particles on a ring

Jackson, R.L.; Lei, J., 2014:
Hydrodynamically lubricated and grooved biomimetic self-adapting surfaces

Krishnan, M.; Tolley, M.T.; Lipson, H.; Erickson, D., 2009 :
Hydrodynamically tunable affinities for fluidic assembly

Mao, X.; Waldeisen, J.Robert.; Juluri, B.Krishna.; Huang, T.Jun., 2007:
Hydrodynamically tunable optofluidic cylindrical microlens

Liu, B.; Wang, J-Wang., 2013:
Hydrodynamics analysis of waveform of capacity model inspiratory phase

Petroff, A.; Libchaber, A., 2014:
Hydrodynamics and collective behavior of the tethered bacterium Thiovulum majus

Wadhwa, N.; Andersen, A.; Kiørboe, T., 2015:
Hydrodynamics and energetics of jumping copepod nauplii and copepodids

Takagi, T.; Tamura, Y.; Weihs, D., 2015:
Hydrodynamics and energy-saving swimming techniques of Pacific bluefin tuna

Popper, O., 1949:
Hydrodynamics and hearing; the operative relief of otosclerotic and nonotosclerotic deafness and its relationship to a hydrodynamic hypothesis of hearing; a suggested explanation for the intimate association of the organs of balance and the organ of hearing and for the function of the incus

Sawant, S.B.; Sikdar, S.K.; Joshi, J.B., 1990:
Hydrodynamics and mass transfer in two-phase aqueous extraction using spray columns

Andreev, V.P.; Koleshko, S.B.; Holman, D.A.; Scampavia, L.D.; Christian, G.D., 1999:
Hydrodynamics and mass transfer of the coaxial jet mixer in flow injection analysis

Li, L.; Wang, J.; Li, T.; Song, W.; Zhang, G., 2014:
Hydrodynamics and propulsion mechanism of self-propelled catalytic micromotors: model and experiment

Marenduzzo, D.; Orlandini, E.; Yeomans, J.M., 2007:
Hydrodynamics and rheology of active liquid crystals: a numerical investigation

Belushkin, M.; Livi, R.; Foffi, G., 2011:
Hydrodynamics and the fluctuation theorem

Viswanathan, T.M.; Viswanathan, G.M., 2011:
Hydrodynamics at the smallest scales: a solvability criterion for Navier-Stokes equations in high dimensions

Ansumali, S.; Karlin, I.V.; Arcidiacono, S.; Abbas, A.; Prasianakis, N.I., 2007:
Hydrodynamics beyond Navier-Stokes: exact solution to the lattice Boltzmann hierarchy

Yudistiawan, W.P.; Ansumali, S.; Karlin, I.V., 2008:
Hydrodynamics beyond Navier-Stokes: the slip flow model

Zöttl, A.; Stark, H., 2014:
Hydrodynamics determines collective motion and phase behavior of active colloids in quasi-two-dimensional confinement

Orlandini, S.; Meloni, S.; Ciccotti, G., 2011:
Hydrodynamics from statistical mechanics: combined dynamical-NEMD and conditional sampling to relax an interface between two immiscible liquids

Henle, M.L.; Levine, A.J., 2010:
Hydrodynamics in curved membranes: the effect of geometry on particulate mobility

Xu, X.; Qian, T., 2013:
Hydrodynamics of Leidenfrost droplets in one-component fluids

Zhang, K.; Yu, B.; Chang, J.; Wu, G.; Wang, T.; Wen, D., 2012:
Hydrodynamics of a fluidized bed co-combustor for tobacco waste and coal

Najafi, A., 2011:
Hydrodynamics of a microhunter: a chemotactic scenario

Khain, E.; Aranson, I.S., 2011:
Hydrodynamics of a vibrated granular monolayer

Minakawa, M.; Fukuda, I.; Igarashi, T.; Fukui, K.; Yanaoka, H.; Inamura, T., 2010:
Hydrodynamics of aortic cannulae during extracorporeal circulation in a mock aortic arch aneurysm model

Niederer, P.; Fankhauser, F.; Kwasniewska, S., 2012:
Hydrodynamics of aqueous humor in chronic simple glaucoma : Mechanisms of pressure normalization by an artificial outflow system

Stroberg, W.; Keten, S.; Liu, W.Kam., 2012:
Hydrodynamics of capillary imbibition under nanoconfinement

Bouffanais, R.; Yue, D.K.P., 2010:
Hydrodynamics of cell-cell mechanical signaling in the initial stages of aggregation

Salbreux, G.; Prost, J.; Joanny, J.F., 2009:
Hydrodynamics of cellular cortical flows and the formation of contractile rings

Patel, R.; Chudasama, B., 2009:
Hydrodynamics of chains in ferrofluid-based magnetorheological fluids under rotating magnetic field

Brotto, T.; Caussin, J-Baptiste.; Lauga, E.; Bartolo, D., 2013:
Hydrodynamics of confined active fluids

Sané, J.; Padding, J.T.; Louis, A.A., 2009:
Hydrodynamics of confined colloidal fluids in two dimensions

Nguyen, H.; Fauci, L., 2014:
Hydrodynamics of diatom chains and semiflexible fibres

Poblete, Són.; Wysocki, A.; Gompper, G.; Winkler, R.G., 2015:
Hydrodynamics of discrete-particle models of spherical colloids: a multiparticle collision dynamics simulation study

Khain, E., 2007:
Hydrodynamics of fluid-solid coexistence in dense shear granular flow

Fletcher, T.; Altringham, J.; Peakall, J.; Wignall, P.; Dorrell, R., 2015:
Hydrodynamics of fossil fishes

Balankin, A.S.; Elizarraraz, B.Espinoza., 2012:
Hydrodynamics of fractal continuum flow

Chen, Y.; Hou, M.; Jiang, Y.; Liu, M., 2013:
Hydrodynamics of granular gases with a two-peak distribution

Wada, H.; Netz, R.R., 2009:
Hydrodynamics of helical-shaped bacterial motility

Cohen, S.I.A.; Mahadevan, L., 2013:
Hydrodynamics of hemostasis in sickle-cell disease

Koehl, M.A.R.; Hadfield, M.G., 2011:
Hydrodynamics of larval settlement from a larva's point of view

Alexander, G.P.; Pooley, C.M.; Yeomans, J.M., 2009:
Hydrodynamics of linked sphere model swimmers

Andreev, A.V.; Son, D.T.; Spivak, B., 2010:
Hydrodynamics of liquids of chiral molecules and suspensions containing chiral particles

Delgado-Buscalioni, R.; Chacon, E.; Tarazona, P., 2008:
Hydrodynamics of nanoscopic capillary waves

Chabchoub, A.; Kibler, B.; Dudley, J.M.; Akhmediev, N., 2014:
Hydrodynamics of periodic breathers

Bartol, I.K.; Krueger, P.S.; Stewart, W.J.; Thompson, J.T., 2009:
Hydrodynamics of pulsed jetting in juvenile and adult brief squid Lolliguncula brevis: evidence of multiple jet 'modes' and their implications for propulsive efficiency

Alt, S.; Kollar, A., 2011:
Hydrodynamics of raindrop impact stimulate ascospore discharge of Venturia inaequalis

Iosilevskii, G.; Weihs, D., 2009:
Hydrodynamics of sailing of the Portuguese man-of-war Physalia physalis

Baskaran, A.; Marchetti, M.Cristina., 2008:
Hydrodynamics of self-propelled hard rods

Elgeti, J.; Kaupp, U.Benjamin.; Gompper, G., 2010:
Hydrodynamics of sperm cells near surfaces

Cabrita, P.; Thorpe, M.; Huber, G., 2014:
Hydrodynamics of steady state phloem transport with radial leakage of solute

Savard, M.; Dauphinais, G.; Gervais, G., 2012:
Hydrodynamics of superfluid helium in a single nanohole

Dasgupta, C.; Valls, O.T., 2009:
Hydrodynamics of superfluids confined in blocked rings and wedges

Eklund, A.; Koskinen, L-Owe.D.; Williams, M.A.; Luciano, M.G.; Dombrowski, S.M.; Malm, J., 2012:
Hydrodynamics of the Certas™ programmable valve for the treatment of hydrocephalus

Pak, O.Shun.; Spagnolie, S.E.; Lauga, E., 2012:
Hydrodynamics of the double-wave structure of insect spermatozoa flagella

Rocco, A.G.; Philip, J.H., 2007:
Hydrodynamics of the spinal epidural space

Blix, E.U.M.; Buffington, C.W., 2009:
Hydrodynamics of the spinal epidural space in pigs: effects of death and exsanguinations

Potvin, G., 2013:
Hydrodynamics of the turbulent point-spread function

Karakashev, S.I.; Manev, E.D., 2014:
Hydrodynamics of thin liquid films: Retrospective and perspectives

Connaboy, C.; Coleman, S.; Sanders, R.H., 2010:
Hydrodynamics of undulatory underwater swimming: a review

Zardecki, A.; Pendleton, J.D., 1989:
Hydrodynamics of water droplets irradiated by a pulsed CO(2) laser

Kim, J.; Moon, M-Woon.; Lee, K-Ryeol.; Mahadevan, L.; Kim, H-Young., 2012:
Hydrodynamics of writing with ink

Jenkins, I.C.; Casey, M.T.; McGinley, J.T.; Crocker, J.C.; Sinno, T., 2014:
Hydrodynamics selects the pathway for displacive transformations in DNA-linked colloidal crystallites

Son, D.T.; Surówka, P., 2010:
Hydrodynamics with triangle anomalies

Prokop, A.; Janík, P.; Sobotka, M.; Krumphanzl, V., 1983:
Hydrodynamics, mass transfer, and yeast culture performance of a column bioreactor with ejector

Yi, M.; Shen, Z.; Zhang, W.; Zhu, J.; Liu, L.; Liang, S.; Zhang, X.; Ma, S., 2014:
Hydrodynamics-assisted scalable production of boron nitride nanosheets and their application in improving oxygen-atom erosion resistance of polymeric composites

Chang, H.; Wang, Y.; Wu, W.; Li, G.; Hanawa, H.; Zou, J., 2014:
Hydrodynamics-based delivery of an interleukin-1 receptor II fusion gene ameliorates rat autoimmune myocarditis by inhibiting IL-1 and Th17 cell polarization

Takekubo, M.; Tsuchida, M.; Haga, M.; Saitoh, M.; Hanawa, H.; Maruyama, H.; Miyazaki, J-ichi.; Hayashi, J-ichi., 2007:
Hydrodynamics-based delivery of plasmid DNA encoding CTLA4-Ig prolonged cardiac allograft survival in rats

Papadopoulos, A., 2009:
Hydrodynamics-based functional forms of activity metabolism: a case for the power-law polynomial function in animal swimming energetics

Chen, T-Hsing.; Yeh, C-Ting.; Ho, Y-Pin.; Hsu, C-Ming.; Huang, C-Chun.; Shiau, S-Shian.; Liang, C-Kai.; Chang, M-Ling., 2009:
Hydrodynamics-based transfection of pancreatic duodenal homeobox 1 DNA improves hyperglycemia and is associated with limited complications in diabetic mice

Shi, J.; Shao, W.; Yang, D.; Zhao, L.; Deng, L.; Wang, X.; Sun, B., 2010:
Hydrodynamics-based transfection of plasmid encoding receptor activator for nuclear factor kappa B-Fc protects against hepatic ischemia/reperfusion injury in mice

Huang, Y-Hong.; Chen, Y-Xin.; Zhang, L-Juan.; Chen, Z-Xin.; Wang, X-Zhong., 2015:
Hydrodynamics-based transfection of rat interleukin-10 gene attenuates porcine serum-induced liver fibrosis in rats by inhibiting the activation of hepatic stellate cells

Sung, C-Mu.; Yeh, C-Ting.; Shiau, S-Shian.; Liang, C-Kai.; Chang, M-Ling., 2011:
Hydrodynamics-based transfection of the combination of betacellulin and neurogenic differentiation 1 DNA ameliorates hyperglycemia in mice with streptozotocin-induced diabetes

Brocklehurst, P.; Korobkin, A.; Părău, E.I., 2011:
Hydroelastic wave diffraction by a vertical cylinder

Marques, R.C.; Dórea, Jé.G.; McManus, C.; Leão, R.S.; Brandão, K.G.; Marques, R.C.; Vieira, I.H.Ito.; Guimarães, J-Remy.D.; Malm, O., 2011:
Hydroelectric reservoir inundation (Rio Madeira Basin, Amazon) and changes in traditional lifestyle: impact on growth and neurodevelopment of pre-school children

Yuan, Q.; Zhao, Y-Pu., 2009:
Hydroelectric voltage generation based on water-filled single-walled carbon nanotubes

Carson, R.J., 1985:
Hydroelectricity from Canada

Kretz, R., 1985:
Hydroelectricity: environmental and social effects

Vilas Boas, Wíria.Wingester.; Marques, M.Bastos.; Alves, A., 2011:
Hydroelectrolytic balance and cerebral relaxation with hypertonic isoncotic saline versus mannitol (20%) during elective neuroanesthesia

Macias-Toro, J.D.; Saurina-Sole, A.; Pou-Potau, Mònica.; Esteve-Simo, V.; Duarte-Gallego, Vónica.; Fulquet-Nicolas, M.; Moreno-Guzmán, Fátima.; Ramírez-de Arellano Serna, M., 2014:
Hydroelectrolytic disorders secondary to refeeding syndrome

Kim, D-Su.; Park, W-Jin.; Lee, C-Hee.; Jun, C-Ho., 2014:
Hydroesterification of alkenes with sodium formate and alcohols promoted by cooperative catalysis of Ru3(CO)12 and 2-pyridinemethanol

Veloso, C.de.Carvalho.; de Oliveira, M.Chaves.; Oliveira, C.da.Costa.; Rodrigues, V.Gregório.; Giusti-Paiva, A.; Teixeira, M.Martins.; Duarte, I.Dimitri.; Ferreira, A.Versiani.Matos.; Perez, A.de.Castro., 2014:
Hydroethanolic extract of Pyrostegia venusta (Ker Gawl.) Miers flowers improves inflammatory and metabolic dysfunction induced by high-refined carbohydrate diet

Zielonka, J.; Kalyanaraman, B., 2010:
Hydroethidine- and MitoSOX-derived red fluorescence is not a reliable indicator of intracellular superoxide formation: another inconvenient truth

Richetta, A.G.; Cantisani, C.; Li, V.W.; Mattozzi, C.; Melis, L.; De Gado, F.; Giancristoforo, S.; Silvestri, E.; Calvieri, S., 2011:
Hydrofiber dressing and wound repair: review of the literature and new patents

Blome-Eberwein, S.; Johnson, R.M.; Miller, S.F.; Caruso, D.M.; Jordan, M.H.; Milner, S.; Tredget, E.E.; Sittig, K.M.; Smith, L., 2011:
Hydrofiber dressing with silver for the management of split-thickness donor sites: a randomized evaluation of two protocols of care

Kommu, S.S., 2010:
Hydroflotation magnetic-aided endolumenal navigation-preliminary platform in ex-vivo setting for the next paradigm in minimally invasive urologic surgery

Straub, R.R., 1983:
Hydrofluoric Acid burns of the hand

Schultz, C.H., 1989:
Hydrofluoric Acid burns of the hand

Hafezi-Nejad, N.; Sheikhbahai, S.; Arbab, M.; Sotoude, H.; Mirfazaelian, H., 2014:
Hydrofluoric acid burn

Qureshi, R.; House, R.; Uhlig, E.; Genesove, L.; Holness, D.Linn., 2007:
Hydrofluoric acid burn: a case report

Flack, A.N.; Scofield, P.D., 2018:
Hydrofluoric acid burn; case report

Nicoletti, G.; Pellegatta, T., 2014:
Hydrofluoric acid burns of the hands in the home environment: correct therapeutic approach

Stuke, L.E.; Arnoldo, B.D.; Hunt, J.L.; Purdue, G.F., 2008:
Hydrofluoric acid burns: a 15-year experience

Burd, A., 2010:
Hydrofluoric acid burns: rational treatment

Xu, H-Ling.; Li, Y.; Jiang, D-Qing.; Yan, X-Ping., 2009:
Hydrofluoric acid etched stainless steel wire for solid-phase microextraction

Strausburg, M.; Travers, J.; Mousdicas, N., 2013:
Hydrofluoric acid exposure: a case report and review on the clinical presentation and management

Zhang, E.J.; Sacher, W.D.; Poon, J.K.S., 2011:
Hydrofluoric acid flow etching of low-loss subwavelength-diameter biconical fiber tapers

Tsonis, L.; Hantsch-Bardsley, C.; Gamelli, R.L., 2008:
Hydrofluoric acid inhalation injury

Loomans, B.A.C.; Mine, A.; Roeters, F.J.M.; Opdam, N.J.M.; De Munck, J.; Huysmans, M.C.D.N.J.M.; Van Meerbeek, B., 2010:
Hydrofluoric acid on dentin should be avoided

Cortina, T.Judith.; Ferrero, H.Andrés., 2014:
Hydrofluoric acid poisoning: case report

Barker, L., 2012:
Hydrofluoric acid skin exposure

Lew, C.M.; Liu, Y.; Day, B.; Kloster, G.M.; Tiznado, H.; Sun, M.; Zaera, F.; Wang, J.; Yan, Y., 2009:
Hydrofluoric-acid-resistant and hydrophobic pure-silica-zeolite MEL low-dielectric-constant films

Peters, S., 2009:
Hydrofluoroalkane mandate in effect January 1, 2009: Switch from chlorofluorocarbon- to hydrofluoroalkane-propelled inhalers requires active transition

McCallister, J.W.; Moore, W.C., 2008:
Hydrofluoroalkane preparations of fluticasone propionate

Ohbayashi, H.; Adachi, M., 2008:
Hydrofluoroalkane-beclomethasone dipropionate effectively improves airway eosinophilic inflammation including the distal airways of patients with mild to moderate persistent asthma as compared with fluticasone propionate in a randomized open double-cross study

Kanyiva, K.Stephen.; Kashihara, N.; Nakao, Y.; Hiyama, T.; Ohashi, M.; Ogoshi, S., 2011:
Hydrofluoroarylation of alkynes with fluoroarenes

Bugaris, D.E.; Smith, M.D.; zur Loye, H-Conrad., 2013:
Hydroflux crystal growth of platinum group metal hydroxides: Sr6NaPd2(OH)17, Li2Pt(OH)6, Na2Pt(OH)6, Sr2Pt(OH)8, and Ba2Pt(OH)8

Baker, R.M. , 1968:
Hydrofoils: optimum lift-off speed for sailboats

Chaudhari, R.V., 2008:
Hydroformylation and carbonylation processes: new trends in the synthesis of pharmaceuticals

Day, B.M.; Dyer, P.W.; Coles, M.P., 2012:
Hydroformylation by Pt-Sn compounds from N-heterocyclic stannylenes

Hapiot, Fédéric.; Bricout, Hé.; Tilloy, Sébastien.; Monflier, E., 2013:
Hydroformylation in aqueous biphasic media assisted by molecular receptors

Bates, R.W.; Kasinathan, S., 2014:
Hydroformylation in natural product synthesis

Haumann, M.; Riisager, A., 2008:
Hydroformylation in room temperature ionic liquids (RTILs): catalyst and process developments

Makhubela, B.C.E.; Jardine, A.M.; Westman, G.; Smith, G.S., 2012:
Hydroformylation of 1-octene using low-generation Rh(I) metallodendritic catalysts based on a tris-2-(2-pyridyliminoethyl)amine scaffold

Airiau, E.; Girard, N.; Pizzeti, M.; Salvadori, J.; Taddei, M.; Mann, Aé., 2011:
Hydroformylation of alkenylamines. Concise approaches toward piperidines, quinolizidines, and related alkaloids

Spangenberg, T.; Breit, B.; Mann, Aé., 2009:
Hydroformylation of homoallylic azides: a rapid approach toward alkaloids

Christensen, S.Holden.; Olsen, E.P.K.; Rosenbaum, J.; Madsen, R., 2014:
Hydroformylation of olefins and reductive carbonylation of aryl halides with syngas formed ex situ from dehydrogenative decarbonylation of hexane-1,6-diol

Simaan, S.; Marek, I., 2010:
Hydroformylation reaction of alkylidenecyclopropane derivatives: a new pathway for the formation of acyclic aldehydes containing quaternary stereogenic carbons

Uhl, W.; Claesener, M., 2007:
Hydrogallation of alkynes with H-GaCl2: formation of organoelement dichlorogallium compounds potentially applicable as chelating Lewis acids

Shirakura, T.; Kelson, T.J.; Ray, A.; Malyarenko, A.E.; Kopelman, R., 2014:
Hydrogel Nanoparticles with Thermally Controlled Drug Release

Carvalho, R.; Maio, P.; Amaro, C.; Santos, R.; Cardoso, J., 2012:
Hydrogel allergic contact dermatitis and imidazolidinyl urea/diazolidinyl urea

Radhakrishnan, J.; Krishnan, U.Maheswari.; Sethuraman, S., 2014:
Hydrogel based injectable scaffolds for cardiac tissue regeneration

Liu, Y.; Chan-Park, M.B., 2008:
Hydrogel based on interpenetrating polymer networks of dextran and gelatin for vascular tissue engineering

Orthner, M.P.; Lin, G.; Avula, M.; Buetefisch, S.; Magda, J.; Rieth, L.W.; Solzbacher, F., 2010:
Hydrogel based sensor arrays (2 × 2) with perforated piezoresistive diaphragms for metabolic monitoring (in vitro)

Demitri, C.; Sannino, A.; Conversano, F.; Casciaro, S.; Distante, A.; Maffezzoli, A., 2008:
Hydrogel based tissue mimicking phantom for in-vitro ultrasound contrast agents studies

Mehl, A.F.; Feer, S.P.; Cusimano, J.S., 2012:
Hydrogel biopolymer created from the self-assembly of a designed protein containing a four-helix bundle forming motif

Bertassoni, L.E.; Cecconi, M.; Manoharan, V.; Nikkhah, M.; Hjortnaes, J.; Cristino, A.Luiza.; Barabaschi, G.; Demarchi, D.; Dokmeci, M.R.; Yang, Y.; Khademhosseini, A., 2015:
Hydrogel bioprinted microchannel networks for vascularization of tissue engineering constructs

Murakami, K.; Aoki, H.; Nakamura, S.; Nakamura, S-ichiro.; Takikawa, M.; Hanzawa, M.; Kishimoto, S.; Hattori, H.; Tanaka, Y.; Kiyosawa, T.; Sato, Y.; Ishihara, M., 2010:
Hydrogel blends of chitin/chitosan, fucoidan and alginate as healing-impaired wound dressings

Goubko, C.A.; Majumdar, S.; Basak, A.; Cao, X., 2010:
Hydrogel cell patterning incorporating photocaged RGDS peptides

Wrzeszcz, A.; Steffens, M.; Balster, S.; Warnecke, A.; Dittrich, B.; Lenarz, T.; Reuter, Günter., 2015:
Hydrogel coated and dexamethasone releasing cochlear implants: quantification of fibrosis in guinea pigs and evaluation of insertion forces in a human cochlea model

de Lathouder, K.M.; Smeltink, M.W.; Straathof, A.J.J.; Paasman, M.A.; van de Sandt, E.J.A.X.; Kapteijn, F.; Moulijn, J.A., 2008:
Hydrogel coated monoliths for enzymatic hydrolysis of penicillin G

Marchan, E.M.; Sekula, R.F.; Ku, A.; Williams, R.; O'Neill, B.R.; Wilberger, J.E.; Quigley, M.R., 2008:
Hydrogel coil-related delayed hydrocephalus in patients with unruptured aneurysms

Nichols, J.J.; Sinnott, L.T.; King-Smith, P.Ewen.; Nagai, H.; Tanikawa, S., 2008:
Hydrogel contact lens binding induced by contact lens rewetting drops

Casolaro, M.; Del Bello, B.; Barbara, D.Bello.; Maellaro, E.; Emilia, M., 2012:
Hydrogel containing L-valine residues as a platform for cisplatin chemotherapy

Marchiori, M.L.; Lubini, G.; Dalla Nora, G.; Friedrich, R.B.; Fontana, M.C.; Ourique, A.F.; Bastos, M.O.; Rigo, L.A.; Silva, C.B.; Tedesco, S.B.; Beck, R.C.R., 2010:
Hydrogel containing dexamethasone-loaded nanocapsules for cutaneous administration: preparation, characterization, and in vitro drug release study

Gao, W.; Vecchio, D.; Li, J.; Zhu, J.; Zhang, Q.; Fu, V.; Li, J.; Thamphiwatana, S.; Lu, D.; Zhang, L., 2014:
Hydrogel containing nanoparticle-stabilized liposomes for topical antimicrobial delivery

Chung, C.; Anderson, E.; Pera, R.Reijo.; Pruitt, B.L.; Heilshorn, S.C., 2012:
Hydrogel crosslinking density regulates temporal contractility of human embryonic stem cell-derived cardiomyocytes in 3D cultures

Wang, Y.; Cooke, M.J.; Morshead, C.M.; Shoichet, M.S., 2012:
Hydrogel delivery of erythropoietin to the brain for endogenous stem cell stimulation after stroke injury

Maia, F.Raquel.; Barbosa, M.; Gomes, D.B.; Vale, N.; Gomes, P.; Granja, P.L.; Barrias, C.C., 2015:
Hydrogel depots for local co-delivery of osteoinductive peptides and mesenchymal stem cells

Kim, I.L.; Mauck, R.L.; Burdick, J.A., 2012:
Hydrogel design for cartilage tissue engineering: a case study with hyaluronic acid

Lam, J.; Carmichael, S.Thomas.; Lowry, W.E.; Segura, T., 2015:
Hydrogel design of experiments methodology to optimize hydrogel for iPSC-NPC culture

Fiddes, L.K.; Luk, V.N.; Au, S.H.; Ng, A.H.C.; Luk, V.; Kumacheva, E.; Wheeler, A.R., 2012:
Hydrogel discs for digital microfluidics

Segovia, N.; Pont, M.; Oliva, N.; Ramos, V.; Borrós, S.; Artzi, N., 2015:
Hydrogel doped with nanoparticles for local sustained release of siRNA in breast cancer

Reiß, F., 2013:
Hydrogel dressings are obsolete

Dumville, J.C.; O'Meara, S.; Deshpande, S.; Speak, K., 2013:
Hydrogel dressings for healing diabetic foot ulcers

Kedzierski, M.; Lejman, D.; Larysz, D., 2007:
Hydrogel dressings in the treatment of wounds with skin defect complications

Li, H.; Leulmi, R.Feriel.; Juncker, D., 2011:
Hydrogel droplet microarrays with trapped antibody-functionalized beads for multiplexed protein analysis

Ashley, G.W.; Henise, J.; Reid, R.; Santi, D.V., 2013:
Hydrogel drug delivery system with predictable and tunable drug release and degradation rates

van Midwoud, P.M.; Merema, M.T.; Verweij, N.; Groothuis, G.M.M.; Verpoorte, E., 2011:
Hydrogel embedding of precision-cut liver slices in a microfluidic device improves drug metabolic activity

Wagner, M.A.; Marks, W.H.; Bhatia, S.K., 2016:
Hydrogel encapsulation to improve cell viability during syringe needle flow

Czyz, C.N.; Petrie, T.P.; Everman, K.R.; Cahill, K.V.; Foster, J.A., 2013:
Hydrogel explant extrusion masquerading as a malignant eyelid lesion

Bach, J.S.; Detrez, F.; Cherkaoui, M.; Cantournet, S.; Ku, D.N.; Corté, L., 2014:
Hydrogel fibers for ACL prosthesis: design and mechanical evaluation of PVA and PVA/UHMWPE fiber constructs

Perale, G.; Giordano, C.; Bianco, F.; Rossi, F.; Tunesi, M.; Daniele, F.; Crivelli, F.; Matteoli, M.; Masi, M., 2011 :
Hydrogel for cell housing in the brain and in the spinal cord

Li, J.; Carnall, J.M.A.; Stuart, M.C.A.; Otto, S., 2013:
Hydrogel formation upon photoinduced covalent capture of macrocycle stacks from dynamic combinatorial libraries

Aurand, E.R.; Wagner, J.L.; Shandas, R.; Bjugstad, K.B., 2014:
Hydrogel formulation determines cell fate of fetal and adult neural progenitor cells

Soontornworajit, B.; Zhou, J.; Shaw, M.T.; Fan, T-Hsi.; Wang, Y., 2010:
Hydrogel functionalization with DNA aptamers for sustained PDGF-BB release

Yao, C.; Ren, J.; Liu, C.; Yin, T.; Zhu, Y.; Ge, L., 2014:
Hydrogel improved the response in the titania/graphene oxide one-dimensional photonic crystals

Liu, Y.; Liang, D., 2012:
Hydrogel integrated with liposome: a two-stage drug delivery system

Mulet, M.Emilia.; Alio, J.L.; Knorz, M.C., 2009:
Hydrogel intracorneal inlays for the correction of hyperopia: outcomes and complications after 5 years of follow-up

Theoulakis, P.E.; Brinkmann, C.K.; Petropoulos, I.K.; Gatzogias, M.I.; Katsimpris, J.M., 2009:
Hydrogel intraocular lens exchange: five-year experience

Young, G.; Riley, C.M.; Chalmers, R.L.; Hunt, C., 2007:
Hydrogel lens comfort in challenging environments and the effect of refitting with silicone hydrogel lenses

Nayagam, B.A.; Backhouse, S.S.; Cimenkaya, C.; Shepherd, R.K., 2013:
Hydrogel limits stem cell dispersal in the deaf cochlea: implications for cochlear implants

Asoh, T-Aki.; Akashi, M., 2009:
Hydrogel logic gates using gradient semi-IPNs

Shepard, J.A.; Virani, F.R.; Goodman, A.G.; Gossett, T.D.; Shin, S.; Shea, L.D., 2012:
Hydrogel macroporosity and the prolongation of transgene expression and the enhancement of angiogenesis

Ranganath, S.Hulikal.; Kee, I.; Krantz, W.B.; Chow, P.Kah-Hoe.; Wang, C-Hwa., 2009:
Hydrogel matrix entrapping PLGA-paclitaxel microspheres: drug delivery with near zero-order release and implantability advantages for malignant brain tumour chemotherapy

Zhong, J.; Chan, A.; Morad, L.; Kornblum, H.I.; Fan, G.; Carmichael, S.Thomas., 2011:
Hydrogel matrix to support stem cell survival after brain transplantation in stroke

Katz, J.S.; Burdick, J.A., 2010:
Hydrogel mediated delivery of trophic factors for neural repair

Grolik, M.; Szczubiałka, K.; Wowra, Bł.; Dobrowolski, D.; Orzechowska-Wylęgała, Bława.; Wylęgała, E.; Nowakowska, M., 2012:
Hydrogel membranes based on genipin-cross-linked chitosan blends for corneal epithelium tissue engineering

Helgeson, M.E.; Chapin, S.C.; Doyle, P.S., 2011:
Hydrogel microparticles from lithographic processes: novel materials for fundamental and applied colloid science

Dutkiewicz, E.P.; Lin, J-Der.; Tseng, T-Wei.; Wang, Y-Sheng.; Urban, P.L., 2015:
Hydrogel micropatches for sampling and profiling skin metabolites

Lee, H.Jong.; Koh, W-Gun., 2015:
Hydrogel micropattern-incorporated fibrous scaffolds capable of sequential growth factor delivery for enhanced osteogenesis of hMSCs

Rahmouni, S.; Lindner, A.; Rechenmacher, F.; Neubauer, S.; Sobahi, T.Rashad.Ali.; Kessler, H.; Cavalcanti-Adam, E.Ada.; Spatz, J.Pius., 2014:
Hydrogel micropillars with integrin selective peptidomimetic functionalized nanopatterned tops: a new tool for the measurement of cell traction forces transmitted through αvβ3- or α5β1-integrins

Hu, W.; Ishii, K.S.; Fan, Q.; Ohta, A.T., 2012:
Hydrogel microrobots actuated by optically generated vapour bubbles

Olabisi, R.M.; Lazard, Z.W.; Franco, C.L.; Hall, M.A.; Kwon, S.Kuk.; Sevick-Muraca, E.M.; Hipp, J.A.; Davis, A.R.; Olmsted-Davis, E.A.; West, J.L., 2011:
Hydrogel microsphere encapsulation of a cell-based gene therapy system increases cell survival of injected cells, transgene expression, and bone volume in a model of heterotopic ossification

Tang, D-Wei.; Yu, S-Huei.; Wu, W-Shin.; Hsieh, H-Ying.; Tsai, Y-Chin.; Mi, F-Long., 2014:
Hydrogel microspheres for stabilization of an antioxidant enzyme: effect of emulsion cross-linking of a dual polysaccharide system on the protection of enzyme activity

Satarkar, N.S.; Zach Hilt, J., 2007:
Hydrogel nanocomposites as remote-controlled biomaterials

Bozukova, D.; Pagnoulle, C.; De Pauw-Gillet, M-Claire.; Vertruyen, Bénédicte.; Jérôme, R.; Jérôme, C., 2012:
Hydrogel nanocomposites: a potential UV/blue light filtering material for ophthalmic lenses

Pippig, F.; Holländer, A., 2010:
Hydrogel nanofilms for biomedical applications: synthesis via polycondensation reactions

Meyerbröker, N.; Zharnikov, M., 2014:
Hydrogel nanomembranes as templates for patterned deposition of nanoparticles on arbitrary substrates

Magni, R.; Espina, B.H.; Liotta, L.A.; Luchini, A.; Espina, V., 2015:
Hydrogel nanoparticle harvesting of plasma or urine for detecting low abundance proteins

Dalby, M.J.; Lee, L.C.Y.; Yang, J.; MacIntyre, A.; McCully, M., 2013:
Hydrogel nanoparticles for drug delivery

Hamidi, M.; Azadi, A.; Rafiei, P., 2008:
Hydrogel nanoparticles in drug delivery

Nie, G.; Hah, H.Jin.; Kim, G.; Lee, Y-Eun.Koo.; Qin, M.; Ratani, T.S.; Fotiadis, P.; Miller, A.; Kochi, A.; Gao, D.; Chen, T.; Orringer, D.A.; Sagher, O.; Philbert, M.A.; Kopelman, R., 2012:
Hydrogel nanoparticles with covalently linked coomassie blue for brain tumor delineation visible to the surgeon

Ray, A.; Kopelman, R., 2014:
Hydrogel nanosensors for biophotonic imaging of chemical analytes

Shikanov, A.; Smith, R.M.; Xu, M.; Woodruff, T.K.; Shea, L.D., 2011:
Hydrogel network design using multifunctional macromers to coordinate tissue maturation in ovarian follicle culture

Van Vlierberghe, S.; Fritzinger, B.; Martins, Jé.C.; Dubruel, P., 2010:
Hydrogel network formation revised: high-resolution magic angle spinning nuclear magnetic resonance as a powerful tool for measuring absolute hydrogel cross-link efficiencies

Tartivel, L.; Behl, M.; Schroeter, M.; Lendlein, A., 2013:
Hydrogel networks based on ABA triblock copolymers

Winnicka, K.; Wroblewska, M.; Wieczorek, P.; Sacha, P.Tomasz.; Tryniszewska, E., 2012:
Hydrogel of ketoconazole and PAMAM dendrimers: formulation and antifungal activity

Medeiros Júnior, M.Dinoá.; Carvalho, E.Judite.de.Amorim.; Catunda, I.Souza.; Bernardino-Araújo, S.; Aguiar, Jé.Lamartine.de.Andrade., 2013:
Hydrogel of polysaccharide of sugarcane molasses as carrier of bone morphogenetic protein in the reconstruction of critical bone defects in rats

Linde, A.Sanchez.; O'Callaghan, J.M.; de Beeck, M.Op.; Neves, H.Pereira.; Van Hoof, C.; Mertens, R., 2012:
Hydrogel optimization towards fibroblast-friendly biomimetic coatings for implantable devices

Park, K., 2013:
Hydrogel particle aggregates for growth factor delivery

Suzuki, D.; Yamakawa, S., 2012:
Hydrogel particles as a particulate stabilizer for dispersion polymerization

Yuan, Y.; Li, Z.; Liu, Y.; Gao, J.; Pan, Z.; Liu, Y., 2011:
Hydrogel photonic sensor for the detection of 3-pyridinecarboxamide

Razavi, M.; Nyamathulla, S.; Karimian, H.; Moghadamtousi, S.Zorofchian.; Noordin, M.Ibrahim., 2015:
Hydrogel polysaccharides of tamarind and xanthan to formulate hydrodynamically balanced matrix tablets of famotidine

Gonçalves, F.Lilian.Lanhellas.; da Silva, R.; Schmidt, A.Frederico.; de Oliveira, M.Ganzarolli.; Sbragia, Lço., 2010:
Hydrogel protection: a novel approach to reduce bowel inflammation in experimental gastroschisis

van Doorn, W.G.; Hiemstra, T.; Fanourakis, D., 2014:
Hydrogel regulation of xylem water flow: an alternative hypothesis

Smithmyer, M.E.; Sawicki, L.A.; Kloxin, A.M., 2014:
Hydrogel scaffolds as in vitro models to study fibroblast activation in wound healing and disease

El-Sherbiny, I.M.; Yacoub, M.H., 2013:
Hydrogel scaffolds for tissue engineering: Progress and challenges

Lewis, K.J.R.; Anseth, K.S., 2013:
Hydrogel scaffolds to study cell biology in four dimensions

Song, Y.; Zheng, Q.; Wu, Y.; Guo, X., 2011:
Hydrogel self-supported from the neotype of amphiphilic peptide

Powell, G., 2010:
Hydrogel sheet dressings and short-stretch cohesive bandaging: case study

Al-Haque, S.; Miklas, J.W.; Feric, N.; Chiu, L.L.Y.; Chen, W.Li.Kelly.; Simmons, C.A.; Radisic, M., 2013:
Hydrogel substrate stiffness and topography interact to induce contact guidance in cardiac fibroblasts

Kim, M.; Jung, B.; Park, J-Hwan., 2012:
Hydrogel swelling as a trigger to release biodegradable polymer microneedles in skin

Acharya, G.; McDermott, M.; Shin, S.Jung.; Park, H.; Park, K., 2011:
Hydrogel templates for the fabrication of homogeneous polymer microparticles

Zhao, Z.; Gu, J.; Zhao, Y.; Guan, Y.; Zhu, X.X.; Zhang, Y., 2015:
Hydrogel thin film with swelling-induced wrinkling patterns for high-throughput generation of multicellular spheroids

Lam, V.; Wakatsuki, T., 2011:
Hydrogel tissue construct-based high-content compound screening

Kowalczyk, A.; Fau, M.; Karbarz, M.; Donten, M.; Stojek, Z.; Nowicka, A.M., 2014:
Hydrogel with chains functionalized with carboxyl groups as universal 3D platform in DNA biosensors

Dong, H.; Snyder, J.F.; Tran, D.T.; Leadore, J.L., 2013:
Hydrogel, aerogel and film of cellulose nanofibrils functionalized with silver nanoparticles

Ziaie, B.; Siegel, R.A., 2007:
Hydrogel-Based BioMEMS platforms for smart drug delivery

Zhu, S.; Segura, T., 2014:
Hydrogel-Based Nanocomposites of Therapeutic Proteins for Tissue Repair

Donnelly, R.F.; Singh, T.Raghu.Raj.; Garland, M.J.; Migalska, K.; Majithiya, R.; McCrudden, C.M.; Kole, P.Laxman.; Mahmood, T.Mazlelaa.Tuan.; McCarthy, H.O.; Woolfson, A.David., 2013:
Hydrogel-Forming Microneedle Arrays for Enhanced Transdermal Drug Delivery

Maran, A.; Dadsetan, M.; Buenz, C.M.; Shogren, K.L.; Lu, L.; Yaszemski, M.J., 2013:
Hydrogel-PLGA delivery system prolongs 2-methoxyestradiol-mediated anti-tumor effects in osteosarcoma cells

Fong, E.L.S.; Martinez, M.; Yang, J.; Mikos, A.G.; Navone, N.M.; Harrington, D.A.; Farach-Carson, M.C., 2016:
Hydrogel-based 3D model of patient-derived prostate xenograft tumors suitable for drug screening

Miyajima, H.; Matsumoto, T.; Sakai, T.; Yamaguchi, S.; An, S.Hyun.; Abe, M.; Wakisaka, S.; Lee, K.Yong.; Egusa, H.; Imazato, S., 2011:
Hydrogel-based biomimetic environment for in vitro modulation of branching morphogenesis

Nishizawa, M., 2015:
Hydrogel-based contractile electrodes for stimulation of cells and tissues

Tran, T.Binh.; Cho, S.; Min, J., 2014:
Hydrogel-based diffusion chip with Electric Cell-substrate Impedance Sensing (ECIS) integration for cell viability assay and drug toxicity screening

Peng, K.; Tomatsu, I.; Kros, A., 2012:
Hydrogel-based drug carriers for controlled release of hydrophobic drugs and proteins

Brandl, F.; Kastner, F.; Gschwind, R.M.; Blunk, T.; Tessmar, Jörg.; Göpferich, A., 2010:
Hydrogel-based drug delivery systems: comparison of drug diffusivity and release kinetics

Giraud, M-Noëlle.; Ayuni, E.; Cook, Séphane.; Siepe, M.; Carrel, T.P.; Tevaearai, H.T., 2008:
Hydrogel-based engineered skeletal muscle grafts normalize heart function early after myocardial infarction

Liu, Y-Mei.; Wang, W.; Zheng, W-Chao.; Ju, X-Jie.; Xie, R.; Zerrouki, D.; Deng, N-Nan.; Chu, L-Yin., 2013:
Hydrogel-based microactuators with remote-controlled locomotion and fast Pb2+-response for micromanipulation

Chen, M.C.W.; Gupta, M.; Cheung, K.C., 2009:
Hydrogel-based microfluidic systems for co-culture of cells

Lei, M.; Baldi, A.; Nuxoll, E.; Siegel, R.A.; Ziaie, B., 2008:
Hydrogel-based microsensors for wireless chemical monitoring

Albani, D.; Gloria, A.; Giordano, C.; Rodilossi, S.; Russo, T.; D'Amora, U.; Tunesi, M.; Cigada, A.; Ambrosio, L.; Forloni, G., 2014:
Hydrogel-based nanocomposites and mesenchymal stem cells: a promising synergistic strategy for neurodegenerative disorders therapy

Fernandes, M.S.; Dias, N.S.; Silva, A.F.; Nunes, J.S.; Lanceros-Méndez, S.; Correia, Jé.H.; Mendes, P.M., 2011:
Hydrogel-based photonic sensor for a biopotential wearable recording system

Sorber, J.; Steiner, G.; Schulz, V.; Guenther, M.; Gerlach, G.; Salzer, R.; Arndt, K-Friedrich., 2008:
Hydrogel-based piezoresistive pH sensors: investigations using FT-IR attenuated total reflection spectroscopic imaging

Zubtsova, Z.I.; Zubtsov, D.A.; Savvateeva, E.N.; Stomakhin, A.A.; Chechetkin, V.R.; Zasedatelev, A.S.; Rubina, A.Yu., 2010:
Hydrogel-based protein and oligonucleotide microchips on metal-coated surfaces: enhancement of fluorescence and optimization of immunoassay

Ghosh, G.; Lee, A.G.; Palecek, S.P., 2009:
Hydrogel-based protein array for quantifying epidermal growth factor receptor activity in cell lysates

Saaem, I.; Papasotiropoulos, V.; Wang, T.; Soteropoulos, P.; Libera, M., 2007:
Hydrogel-based protein nanoarrays

Acarregui, A.; Pedraz, J.Luis.; Blanco, F.Javier.; Hernández, R.María.; Orive, G., 2013:
Hydrogel-based scaffolds for enclosing encapsulated therapeutic cells

Lee, S.Gon.; Kim, S.Rae.; Cho, H.In.; Kang, M.Hyung.; Yeom, D.Woo.; Lee, S.Hyun.; Lee, S.; Choi, Y.Wook., 2015:
Hydrogel-based ultra-moisturizing cream formulation for skin hydration and enhanced dermal drug delivery

Annabi, N.; Selimović, Šeila.; Acevedo Cox, J.Pablo.; Ribas, Jão.; Afshar Bakooshli, M.; Heintze, Déborah.; Weiss, A.S.; Cropek, D.; Khademhosseini, A., 2014:
Hydrogel-coated microfluidic channels for cardiomyocyte culture

Chou, H-Yuan.; Lin, X-Zhang.; Pan, W-Yu.; Wu, P-Yi.; Chang, C-Ming.; Lin, T-Yu.; Shen, H-Hsin.; Tao, M-Hua., 2010:
Hydrogel-delivered GM-CSF overcomes nonresponsiveness to hepatitis B vaccine through the recruitment and activation of dendritic cells

Peng, H.T.; Martineau, L.; Shek, P.N., 2007:
Hydrogel-elastomer composite biomaterials: 3. Effects of gelatin molecular weight and type on the preparation and physical properties of interpenetrating polymer networks

Peng, H.T.; Martineau, L.; Hung, A., 2007:
Hydrogel-elastomer composite biomaterials: 4. Experimental optimization of hydrogel-elastomer composite fibers for use as a wound dressing

Han, N.; Rao, S.S.; Johnson, J.; Parikh, K.S.; Bradley, P.A.; Lannutti, J.J.; Winter, J.O., 2011:
Hydrogel-electrospun fiber mat composite coatings for neural prostheses

McMahon, R.E.; Qu, X.; Jimenez-Vergara, A.Carolina.; Bashur, C.A.; Guelcher, S.A.; Goldstein, A.S.; Hahn, M.S., 2011:
Hydrogel-electrospun mesh composites for coronary artery bypass grafts

Alinaghi, A.; Rouini, M.R.; Johari Daha, F.; Moghimi, H.R., 2014:
Hydrogel-embeded vesicles, as a novel approach for prolonged release and delivery of liposome, in vitro and in vivo

Spalding, B.P.; Brooks, S.C.; Watson, D.B., 2010:
Hydrogel-encapsulated soil: a tool to measure contaminant attenuation in situ

Schulte, V.A.; Hahn, K.; Dhanasingh, A.; Heffels, K-Heinz.; Groll, Jürgen., 2015:
Hydrogel-fibre composites with independent control over cell adhesion to gel and fibres as an integral approach towards a biomimetic artificial ECM

Donnelly, R.F.; Morrow, D.I.J.; McCrudden, Míosa.T.C.; Alkilani, A.Zaid.; Vicente-Pérez, E.M.; O'Mahony, C.; González-Vázquez, P.; McCarron, P.A.; Woolfson, A.David., 2015:
Hydrogel-forming and dissolving microneedles for enhanced delivery of photosensitizers and precursors

Donnelly, R.F.; Moffatt, K.; Alkilani, A.Zaid.; Vicente-Pérez, E.M.; Barry, J.; McCrudden, Míosa.T.C.; Woolfson, A.David., 2015:
Hydrogel-forming microneedle arrays can be effectively inserted in skin by self-application: a pilot study centred on pharmacist intervention and a patient information leaflet

Donnelly, R.F.; Mooney, K.; McCrudden, Míosa.T.C.; Vicente-Pérez, E.M.; Belaid, L.; González-Vázquez, P.; McElnay, J.C.; Woolfson, A.David., 2014:
Hydrogel-forming microneedles increase in volume during swelling in skin, but skin barrier function recovery is unaffected

Donnelly, R.F.; McCrudden, Míosa.T.C.; Zaid Alkilani, A.; Larrañeta, E.; McAlister, E.; Courtenay, A.J.; Kearney, M-Carmel.; Singh, T.Raghu.Raj.; McCarthy, H.O.; Kett, V.L.; Caffarel-Salvador, E.; Al-Zahrani, S.; Woolfson, A.David., 2016:
Hydrogel-forming microneedles prepared from "super swelling" polymers combined with lyophilised wafers for transdermal drug delivery

Ng, S-Fern.; Lew, P-Chin.; Sin, Y-Boey., 2015:
Hydrogel-gauze dressing for moderate-to-severe atopic dermatitis: development and efficacy study on atopic dermatitis-like skin lesions in NC/Nga mice

Teodor, E.; Litescu, S-Carmen.; Lazar, V.; Somoghi, R., 2009:
Hydrogel-magnetic nanoparticles with immobilized L-asparaginase for biomedical applications

Dadsetan, M.; Szatkowski, J.P.; Shogren, K.L.; Yaszemski, M.J.; Maran, A., 2010:
Hydrogel-mediated DNA delivery confers estrogenic response in nonresponsive osteoblast cells

Park, S.; Yang, G.; Madduri, N.; Abidian, M.Reza.; Majd, S., 2015:
Hydrogel-mediated direct patterning of conducting polymer films with multiple surface chemistries

Kusanagi, M.; Matsui, O.; Sanada, J.; Ogi, T.; Takamatsu, S.; Zhong, H.; Kimura, Y.; Tabata, Y., 2007:
Hydrogel-mediated release of basic fibroblast growth factor from a stent-graft accelerates biological fixation with the aortic wall in a porcine model

Strong, L.E.; Dahotre, S.N.; West, J.L., 2014:
Hydrogel-nanoparticle composites for optically modulated cancer therapeutic delivery

Ramakrishnan, S., 2011:
Hydrogel-siRNA for cancer therapy

Kim, J-Hyun.; Lee, T.Randall., 2007:
Hydrogel-templated growth of large gold nanoparticles: synthesis of thermally responsive hydrogel-nanoparticle composites

Killion, J.A.; Kehoe, S.; Geever, L.M.; Devine, D.M.; Sheehan, E.; Boyd, D.; Higginbotham, C.L., 2014:
Hydrogel/bioactive glass composites for bone regeneration applications: synthesis and characterisation

Sohier, J.; Corre, P.; Weiss, P.; Layrolle, P., 2010:
Hydrogel/calcium phosphate composites require specific properties for three-dimensional culture of human bone mesenchymal cells

Dodd, D.W.; Jones, N.D.; Hudson, R.He., 2011:
Hydrogelation abilities of nucleobase-modified cytidines possessing substituted triazoles

Cheng, G.; Castelletto, V.; Moulton, C.M.; Newby, G.E.; Hamley, I.W., 2010:
Hydrogelation and self-assembly of Fmoc-tripeptides: unexpected influence of sequence on self-assembled fibril structure, and hydrogel modulus and anisotropy

Debnath, S.; Shome, A.; Das, D.; Das, P.Kumar., 2010:
Hydrogelation through self-assembly of fmoc-peptide functionalized cationic amphiphiles: potent antibacterial agent

Cai, F.; Shen, J-Shan.; Wang, J-He.; Zhang, H.; Zhao, J-Song.; Zeng, E-Man.; Jiang, Y-Bao., 2012:
Hydrogelators of cyclotriveratrylene derivatives

Lu, C.; Mikhail, A.S.; Wang, X.; Brook, M.A.; Allen, C., 2016:
Hydrogels Containing Core Cross-Linked Block Co-Polymer Micelles

Strehin, I.; Gourevitch, D.; Zhang, Y.; Heber-Katz, E.; Messersmith, P.B., 2013:
Hydrogels Formed by Oxo-ester Mediated Native Chemical Ligation

Kopeček, Jřich., 2009:
Hydrogels from Soft Contact Lenses and Implants to Self-Assembled Nanomaterials

Bigall, N.C.; Herrmann, A-Kristin.; Vogel, M.; Rose, M.; Simon, P.; Carrillo-Cabrera, W.; Dorfs, D.; Kaskel, S.; Gaponik, N.; Eychmüller, A., 2009:
Hydrogels and aerogels from noble metal nanoparticles

Gauvin, R.; Parenteau-Bareil, Rémi.; Dokmeci, M.R.; Merryman, W.David.; Khademhosseini, A., 2012:
Hydrogels and microtechnologies for engineering the cellular microenvironment

Singh, A.; Peppas, N.A., 2015:
Hydrogels and scaffolds for immunomodulation

Edwards, J., 2010:
Hydrogels and their potential uses in burn wound management

Kurdi, M.; Chidiac, R.; Hoemann, C.; Zouein, F.; Zgheib, C.; Booz, G.W., 2011:
Hydrogels as a platform for stem cell delivery to the heart

Alvarado-Velez, M.; Pai, S.Balakrishna.; Bellamkonda, R.V., 2015:
Hydrogels as carriers for stem cell transplantation

Alkayyali, L.B.; Abu-Diak, O.A.; Andrews, G.P.; Jones, D.S., 2012:
Hydrogels as drug-delivery platforms: physicochemical barriers and solutions

Tibbitt, M.W.; Anseth, K.S., 2009:
Hydrogels as extracellular matrix mimics for 3D cell culture

Zubris, K.Ann.V.; Colson, Y.L.; Grinstaff, M.W., 2012:
Hydrogels as intracellular depots for drug delivery

Bhat, S.; Maitra, U., 2007:
Hydrogels as reaction vessels: acenaphthylene dimerization in hydrogels derived from bile acid analogues

Popa, N.; Novac, O.; Profire, L.; Lupusoru, C.Elena.; Popa, M.Ionel., 2010:
Hydrogels based on chitosan-xanthan for controlled release of theophylline

Poon, Y.Fun.; Cao, Y.; Liu, Y.; Chan, V.; Chan-Park, M.B., 2010:
Hydrogels based on dual curable chitosan-graft-polyethylene glycol-graft-methacrylate: application to layer-by-layer cell encapsulation

Vaghani, S.S.; Patel, M.M., 2011:
Hydrogels based on interpenetrating network of chitosan and polyvinyl pyrrolidone for pH-sensitive delivery of repaglinide

Wang, R.; Geven, M.; Dijkstra, P.J.; Martens, P.; Karperien, M., 2014:
Hydrogels by supramolecular crosslinking of terpyridine end group functionalized 8-arm poly(ethylene glycol)

Khodaverdi, E.; Mirzazadeh Tekie, F.Sadat.; Hadizadeh, F.; Esmaeel, H.; Mohajeri, S.Ahmad.; Sajadi Tabassi, S.A.; Zohuri, G., 2014:
Hydrogels composed of cyclodextrin inclusion complexes with PLGA-PEG-PLGA triblock copolymers as drug delivery systems

Taira, T.; Suzaki, Y.; Osakada, K., 2010:
Hydrogels composed of organic amphiphiles and alpha-cyclodextrin: supramolecular networks of their pseudorotaxanes in aqueous media

Hoffmeister, C.Rd.; Durli, Tís.L.; Schaffazick, S.R.; Raffin, R.P.; Bender, E.A.; Beck, R.Cr.; Pohlmann, A.R.; Guterres, Sílvia.S., 2012:
Hydrogels containing redispersible spray-dried melatonin-loaded nanocapsules: a formulation for transdermal-controlled delivery

Almeida, J.S.; Benvegnú, D.M.; Boufleur, N.; Reckziegel, P.; Barcelos, R.C.S.; Coradini, K.; de Carvalho, L.M.; Bürger, M.E.; Beck, R.C.R., 2015:
Hydrogels containing rutin intended for cutaneous administration: efficacy in wound healing in rats

Li, H.; Estroff, L.A., 2007 :
Hydrogels coupled with self-assembled monolayers: an in vitro matrix to study calcite biomineralization

Hu, B-Huang.; Su, J.; Messersmith, P.B., 2009:
Hydrogels cross-linked by native chemical ligation

Medberry, C.J.; Crapo, P.M.; Siu, B.F.; Carruthers, C.A.; Wolf, M.T.; Nagarkar, S.P.; Agrawal, V.; Jones, K.E.; Kelly, J.; Johnson, S.A.; Velankar, S.S.; Watkins, S.C.; Modo, M.; Badylak, S.F., 2013:
Hydrogels derived from central nervous system extracellular matrix

Sawkins, M.J.; Bowen, W.; Dhadda, P.; Markides, H.; Sidney, L.E.; Taylor, A.J.; Rose, F.R.A.J.; Badylak, S.F.; Shakesheff, K.M.; White, L.J., 2013:
Hydrogels derived from demineralized and decellularized bone extracellular matrix

Yan, Z-Yuan.; Jia, L-Ping.; Yan, B., 2014:
Hydrogels dispersed by doped rare earth fluoride nanocrystals: ionic liquid dispersion and down/up-conversion luminescence

Wang, H.; Xu, W.; Song, S.; Feng, L.; Song, A.; Hao, J., 2015:
Hydrogels facilitated by monovalent cations and their use as efficient dye adsorbents

Cabral, J.; Moratti, S.Carl., 2012:
Hydrogels for biomedical applications

Pal, K.; Banthia, A.K.; Majumdar, D.K., 2015:
Hydrogels for biomedical applications: a short review

Shapira, K.; Dikovsky, D.; Habib, M.; Gepstein, L.; Seliktar, D., 2008:
Hydrogels for cardiac tissue regeneration

Du, J.; Du, P.; Smyth, H.D.C., 2013:
Hydrogels for controlled pulmonary delivery

DeVolder, R.; Kong, H-Joon., 2013:
Hydrogels for in vivo-like three-dimensional cellular studies

Seidlits, S.K.; Gower, R.Michael.; Shepard, J.A.; Shea, L.D., 2013:
Hydrogels for lentiviral gene delivery

Dunphy, Sán.E.; Bratt, J.A.J.; Akram, K.M.; Forsyth, N.R.; El Haj, A.J., 2015:
Hydrogels for lung tissue engineering: Biomechanical properties of thin collagen-elastin constructs

Reitmaier, S.; Wolfram, U.; Ignatius, A.; Wilke, H-Joachim.; Gloria, A.; Martín-Martínez, Jé.M.; Silva-Correia, J.; Miguel Oliveira, J.; Luís Reis, R.; Schmidt, H., 2013:
Hydrogels for nucleus replacement--facing the biomechanical challenge

Degoricija, L.; Bansal, P.N.; Söntjens, S.H.M.; Joshi, N.S.; Takahashi, M.; Snyder, B.; Grinstaff, M.W., 2008:
Hydrogels for osteochondral repair based on photocrosslinkable carbamate dendrimers

Pitarresi, G.; Tripodo, G.; Calabrese, R.; Craparo, E.Fabiola.; Licciardi, M.; Giammona, G., 2008:
Hydrogels for potential colon drug release by thiol-ene conjugate addition of a new inulin derivative

Vermonden, T.; Censi, R.; Hennink, W.E., 2012:
Hydrogels for protein delivery

Patrick, A.G.; Ulijn, R.V., 2011:
Hydrogels for the detection and management of protease levels

Spiller, K.L.; Maher, S.A.; Lowman, A.M., 2012:
Hydrogels for the repair of articular cartilage defects

Zhang, F.; Xu, Z.; Dong, S.; Feng, L.; Song, A.; Tung, C-Ho.; Hao, J., 2014 :
Hydrogels formed by enantioselective self-assembly of histidine-derived amphiphiles with tartaric acid

Gräbner, D.; Hoffmann, H.; Förster, S.; Rosenfeldt, S.; Linders, J.; Mayer, C.; Talmon, Y.; Schmidt, J., 2015:
Hydrogels from phospholipid vesicles

Kirschner, C.M.; Anseth, K.S., 2013:
Hydrogels in Healthcare: From Static to Dynamic Material Microenvironments

Buwalda, S.J.; Boere, K.W.M.; Dijkstra, P.J.; Feijen, J.; Vermonden, T.; Hennink, W.E., 2014:
Hydrogels in a historical perspective: from simple networks to smart materials

D'Este, M.; Eglin, D., 2013:
Hydrogels in calcium phosphate moldable and injectable bone substitutes: Sticky excipients or advanced 3-D carriers?

Nazar, H.; Roldo, M.; Fatouros, D.G.; van der Merwe, S.M.; Tsibouklis, J., 2012:
Hydrogels in mucosal delivery

Slaughter, B.V.; Khurshid, S.S.; Fisher, O.Z.; Khademhosseini, A.; Peppas, N.A., 2010:
Hydrogels in regenerative medicine

Mather, M.L.; Tomlins, P.E., 2011:
Hydrogels in regenerative medicine: towards understanding structure-function relationships

Perale, G.; Rossi, F.; Sundstrom, E.; Bacchiega, S.; Masi, M.; Forloni, G.; Veglianese, P., 2012:
Hydrogels in spinal cord injury repair strategies

Courant, T.; Roullin, Vérie.Gaëlle.; Cadiou, C.; Callewaert, Mïté.; Andry, M.Christine.; Portefaix, C.; Hoeffel, C.; de Goltstein, M.Christine.; Port, M.; Laurent, S.; Elst, L.Vander.; Muller, R.; Molinari, Mël.; Chuburu, Fçoise., 2013:
Hydrogels incorporating GdDOTA: towards highly efficient dual T1/T2 MRI contrast agents

Milasinović, N.; Kalagasidis Krusić, M.; Knezević-Jugović, Z.; Filipović, J., 2010:
Hydrogels of N-isopropylacrylamide copolymers with controlled release of a model protein

Teles, H.; Vermonden, T.; Eggink, G.; Hennink, W.E.; de Wolf, F.A., 2011:
Hydrogels of collagen-inspired telechelic triblock copolymers for the sustained release of proteins

Guo, Y.; Yuan, T.; Xiao, Z.; Tang, P.; Xiao, Y.; Fan, Y.; Zhang, X., 2013:
Hydrogels of collagen/chondroitin sulfate/hyaluronan interpenetrating polymer network for cartilage tissue engineering

Feeney, M.; Giannuzzo, M.; Paolicelli, P.; Casadei, M.Antonietta., 2007:
Hydrogels of dextran containing nonsteroidal anti-inflammatory drugs as pendant agents

Wang, Y.; Zhang, Z.; Xu, L.; Li, X.; Chen, H., 2013:
Hydrogels of halogenated Fmoc-short peptides for potential application in tissue engineering

Zhou, J.; Chang, C.; Zhang, R.; Zhang, L., 2007:
Hydrogels prepared from unsubstituted cellulose in NaOH/urea aqueous solution

Wang, H.; Tibbitt, M.W.; Langer, S.J.; Leinwand, L.A.; Anseth, K.S., 2014:
Hydrogels preserve native phenotypes of valvular fibroblasts through an elasticity-regulated PI3K/AKT pathway

Bian, L.; Guvendiren, M.; Mauck, R.L.; Burdick, J.A., 2013:
Hydrogels that mimic developmentally relevant matrix and N-cadherin interactions enhance MSC chondrogenesis

Song, H-Ho.Greco.; Park, K.Min.; Gerecht, S., 2015:
Hydrogels to model 3D in vitro microenvironment of tumor vascularization

Avilés, M.O.; Shea, L.D., 2012:
Hydrogels to modulate lentivirus delivery in vivo from microporous tissue engineering scaffolds

Schmidt, J.J.; Rowley, J.; Kong, H.Joon., 2008:
Hydrogels used for cell-based drug delivery

Wu, Z.Liang.; Kurokawa, T.; Liang, S.; Furukawa, H.; Gong, J.Ping., 2010:
Hydrogels with cylindrically symmetric structure at macroscopic scale by self-assembly of semi-rigid polyion complex

Guvendiren, M.; Perepelyuk, M.; Wells, R.G.; Burdick, J.A., 2015:
Hydrogels with differential and patterned mechanics to study stiffness-mediated myofibroblastic differentiation of hepatic stellate cells

Young, J.L.; Engler, A.J., 2011:
Hydrogels with time-dependent material properties enhance cardiomyocyte differentiation in vitro

Wilson, M.J.; Liliensiek, S.J.; Murphy, C.J.; Murphy, W.L.; Nealey, P.F., 2012:
Hydrogels with well-defined peptide-hydrogel spacing and concentration: impact on epithelial cell behavior()

Chawla, P.; Srivastava, A.Ranjan.; Pandey, P.; Chawla, V., 2014:
Hydrogels: a journey from diapers to gene delivery

González-Alvarez, M.; González-Alvarez, I.; Bermejo, M., 2013:
Hydrogels: an interesting strategy for smart drug delivery

Thiele, K.; Wagner, C.; Merzweiler, K., 2012:
Hydrogen 4-ammonio-phenyl-phospho-n-ate

Orben, C.M.; Dittrich, B., 2014:
Hydrogen ADPs with Cu Kα data? Invariom and Hirshfeld atom modelling of fluconazole

French, C.S., 1936:
Hydrogen and Carbon Dioxide Photo-Assimilation in Purple Bacteria

Guardia, E.; Skarmoutsos, I.; Masia, M., 2016:
Hydrogen Bonding and Related Properties in Liquid Water: A Car-Parrinello Molecular Dynamics Simulation Study

McDaniel, D.H.; Brown, H.C., 1953:
Hydrogen Bonding as a Factor in the Ionization of Dicarboxylic Acids

Anonymous, 1931:
Hydrogen Cyanide Fumigation

Voorhoeve, R.J.; Patel, C.K.; Trimble, L.E.; Kerl, R.J., 1978:
Hydrogen Cyanide Production During Reduction of Nitric Oxide over Platinum Catalysts: Transient Effects

Rogers, H.C., 1968:
Hydrogen Embrittlement of Metals: Atomic hydrogen from a variety of sources reduces the ductility of many metals

Höglund, B.; Mezger, P.G., 1965:
Hydrogen Emission Line n110 rarr n109: Detection at 5009 Megahertz in Galactic H II Regions

Porter, W.S., 1964:
Hydrogen Energy Levels: Perturbation Caused by Proton Structure

Ezekiel, W.N., 1923:
Hydrogen Ion Concentration And The Development Of Sclerotinia Apothecia

Avery, O.T.; Cullen, G.E., 1919:
Hydrogen Ion Concentration of Cultures of Pneumococci of the Different Types in Carbohydrate Media

Crozier, W.J., 1924:
Hydrogen Ion Concentrations Within the Alimentary Tract of Insects

Senadheera, L.; Conradi, M.S., 2008:
Hydrogen NMR of H2-TDF-D2O clathrate

Al-Abbasi, A.M.; Saeed, Z.K., 2008:
Hydrogen Peroxide 3%: Is it Beneficial in Tonsillectomy?

Gunson, C.H., 1902:
Hydrogen Peroxide in the Treatment of Lupus Vulgaris and Tuberculous Abscess

Fukuzumi, S.; Yamada, Y.; Karlin, K.D., 2013:
Hydrogen Peroxide as a Sustainable Energy Carrier: Electrocatalytic Production of Hydrogen Peroxide and the Fuel Cell

Hong, J.Kyu.; Kang, S.Ran.; Kim, Y.Hwa.; Yoon, D.June.; Kim, D.Hoon.; Kim, H.Ji.; Sung, C.Hyun.; Kang, H.Sol.; Choi, C.Won.; Kim, S.Hwan.; Kim, Y.Shik., 2014:
Hydrogen Peroxide- and Nitric Oxide-mediated Disease Control of Bacterial Wilt in Tomato Plants

Kraus, F.; Aschenbrenner, Jürgen.C.; Klamroth, T.; Korber, N., 2009:
Hydrogen Polyphosphides P3H2(3-) and P3H3(2-): synthesis and crystal structure of K3(P3H2).2.3NH3, Rb3(P3H2).NH3, [Rb(18-crown-6)]2(P3H3).7.5NH3, and [Cs(18-crown-6)]2(P3H3).7NH3

Tingle, A., 1910:
Hydrogen Polysulphide as a Reducing Agent

Lansing, J.C.; Camara, J.M.; Gray, D.E.; Rauchfuss, T.B., 2014:
Hydrogen Production Catalyzed by Bidirectional, Biomimetic Models of the [FeFe]-Hydrogenase Active Site

Kamat, P.K.; Kalani, A.; Tyagi, S.C.; Tyagi, N., 2015 :
Hydrogen Sulfide Epigenetically Attenuates Homocysteine-Induced Mitochondrial Toxicity Mediated Through NMDA Receptor in Mouse Brain Endothelial (bEnd3) Cells

Streeter, E.; Al-Magableh, M.; Hart, J.Louise.; Badoer, E., 2011:
Hydrogen Sulfide in the RVLM and PVN has No Effect on Cardiovascular Regulation

Zhong, G-Zhen., 2010:
Hydrogen Sulfide-a potent multichannel anti-arrhythmic drug

O'donoghue, J.G., 1961:
Hydrogen Sulphide in Swine

Kogler, M.; Köck, E-Maria.; Bielz, T.; Pfaller, K.; Klötzer, B.; Schmidmair, D.; Perfler, L.; Penner, S., 2014:
Hydrogen Surface Reactions and Adsorption Studied on Y 2 O 3 , YSZ, and ZrO 2

Liu, S-Lin.; Liu, K.; Sun, Q.; Liu, W-Wu.; Tao, H-Yi.; Sun, X-Jun., 2011:
Hydrogen Therapy may be a Novel and Effective Treatment for COPD

Qi, H.; Takano, H.; Kato, Y.; Wu, Q.; Ogata, C.; Zhu, B.; Murata, Y.; Nakamura, Y., 2011:
Hydrogen [corrected] peroxide-dependent photocytotoxicity by phloxine B, a xanthene-type food colorant

Zhang, C.; Alavi, A., 2007:
Hydrogen absorption in bulk BC3: a first-principles study

Kobayashi, H.; Yamauchi, M.; Kitagawa, H.; Kubota, Y.; Kato, K.; Takata, M., 2008:
Hydrogen absorption in the core/shell interface of Pd/Pt nanoparticles

Tokaychuk, Y.O.; Filinchuk, Y.E.; Sheptyakov, D.V.; Yvon, K., 2008:
Hydrogen absorption in transition metal silicides: La3Pd5Si-hydrogen system

Galli, C.; Gentili, P.; Lanzalunga, O., 2008:
Hydrogen abstraction and electron transfer with aminoxyl radicals: synthetic and mechanistic issues

O'Reilly, R.J.; Chan, B.; Taylor, M.S.; Ivanic, S.; Bacskay, G.B.; Easton, C.J.; Radom, L., 2012:
Hydrogen abstraction by chlorine atom from amino acids: remarkable influence of polar effects on regioselectivity

Taylor, M.S.; Ivanic, S.A.; Wood, G.P.F.; Easton, C.J.; Bacskay, G.B.; Radom, L., 2010:
Hydrogen abstraction by chlorine atom from small organic molecules containing amino acid functionalities: an assessment of theoretical procedures

Salamone, M.; Martella, R.; Bietti, M., 2013:
Hydrogen abstraction from cyclic amines by the cumyloxyl and benzyloxyl radicals. The role of stereoelectronic effects and of substrate/radical hydrogen bonding

Schyman, P.; Eriksson, L.A.; Laaksonen, A., 2009:
Hydrogen abstraction from deoxyribose by a neighboring 3'-uracil peroxyl radical

Schyman, P.; Zhang, R.Bo.; Eriksson, L.A.; Laaksonen, A., 2007:
Hydrogen abstraction from deoxyribose by a neighbouring uracil-5-yl radical

Moc, J.; Simmie, J.M., 2010:
Hydrogen abstraction from n-butanol by the hydroxyl radical: high level ab initio study of the relative significance of various abstraction channels and the role of weakly bound intermediates

Katsikadakos, D.; Hardalupas, Y.; Taylor, A.M.K.P.; Hunt, P.A., 2012:
Hydrogen abstraction from n-butanol by the methyl radical: high level ab initio study of abstraction pathways and the importance of low energy rotational conformers

Kopp, W.A.; Langer, R.T.; Döntgen, M.; Leonhard, K., 2014:
Hydrogen abstraction from n-butyl formate by H˙ and HO₂˙

Spada, R.F.K.; Ferrão, L.F.A.; Rocha, R.J.; Iha, K.; Rocco, Jé.A.F.F.; Roberto-Neto, O.; Lischka, H.; Machado, F.B.C., 2014:
Hydrogen abstraction from the hydrazine molecule by an oxygen atom

Wang, L.; Li, Y.; He, H.; Zhang, J., 2012:
Hydrogen abstraction reactions of OH radicals with CH₃CH₂CH₂Cl and CH₃CHClCH₃: a mechanistic and kinetic study

Parker, D.S.N.; Kaiser, R.I.; Troy, T.P.; Ahmed, M., 2014:
Hydrogen abstraction/acetylene addition revealed

Lu, J.; Aydin, C.; Browning, N.D.; Gates, B.C., 2012:
Hydrogen activation and metal hydride formation trigger cluster formation from supported iridium complexes

Chernichenko, K.; Nieger, M.; Leskelä, M.; Repo, T., 2012:
Hydrogen activation by 2-boryl-N,N-dialkylanilines: a revision of Piers' ansa-aminoborane

Longobardi, L.E.; Russell, C.A.; Green, M.; Townsend, N.S.; Wang, K.; Holmes, A.J.; Duckett, S.B.; McGrady, J.E.; Stephan, D.W., 2015:
Hydrogen activation by an aromatic triphosphabenzene

Podiyanachari, S.Kumar.; Fröhlich, R.; Daniliuc, C.G.; Petersen, J.L.; Mück-Lichtenfeld, C.; Kehr, G.; Erker, G., 2012:
Hydrogen activation by an intramolecular boron Lewis acid/zirconocene pair

Manor, B.C.; Rauchfuss, T.B., 2014:
Hydrogen activation by biomimetic [NiFe]-hydrogenase model containing protected cyanide cofactors

Olsen, M.T.; Barton, B.E.; Rauchfuss, T.B., 2009:
Hydrogen activation by biomimetic diiron dithiolates

Rokob, T.András.; Pápai, I., 2013:
Hydrogen activation by frustrated lewis pairs: insights from computational studies

Reis, Pícia.M.; Costa, P.Jorge.; Romão, C.C.; Fernandes, Jé.A.; Calhorda, M.José.; Royo, B., 2008:
Hydrogen activation by high-valent oxo-molybdenum(VI) and -rhenium(VII) and -(V) compounds

Adams, R.D.; Captain, B., 2007:
Hydrogen activation by unsaturated mixed-metal cluster complexes: new directions

Neitzel, A.; Lykhach, Y.; Skála, Táš.; Tsud, N.; Johánek, V.; Vorokhta, M.; Prince, K.C.; Matolín, Vír.; Libuda, Jörg., 2014:
Hydrogen activation on Pt-Sn nanoalloys supported on mixed Sn-Ce oxide films

Houghton, A.Y.; Karttunen, V.A.; Piers, W.E.; Tuononen, H.M., 2013:
Hydrogen activation with perfluorinated organoboranes: 1,2,3-tris(pentafluorophenyl)-4,5,6,7-tetrafluoro-1-boraindene

Fernández-Torre, D.; Carrasco, J.; Ganduglia-Pirovano, M.Verónica.; Pérez, Rén., 2015:
Hydrogen activation, diffusion, and clustering on CeO₂(111): a DFT+U study

Matanović, I.; Belof, J.L.; Space, B.; Sillar, K.; Sauer, J.; Eckert, J.; Bačić, Z., 2012:
Hydrogen adsorbed in a metal organic framework-5: coupled translation-rotation eigenstates from quantum five-dimensional calculations

Son, W-joon.; Cho, E.; Lee, J.; Han, S., 2011:
Hydrogen adsorption and carrier generation in LaAlO3-SrTiO3 heterointerfaces: a first-principles study

Gudmundsdóttir, Sídur.; Skúlason, E.; Weststrate, K-Jan.; Juurlink, L.; Jónsson, H., 2013:
Hydrogen adsorption and desorption at the Pt(110)-(1×2) surface: experimental and theoretical study

Smith, R.; Brázdová, V.; Bowler, D.R., 2014:
Hydrogen adsorption and diffusion around Si(0 0 1)/Si(1 1 0) corners in nanostructures

Alavi, S.; Woo, T.K.; Sirjoosingh, A.; Lang, S.; Moudrakovski, I.; Ripmeester, J.A., 2010:
Hydrogen adsorption and diffusion in p-tert-butylcalix[4]arene: an experimental and molecular simulation study

Brown, C.M.; Liu, Y.; Yildirim, T.; Peterson, V.K.; Kepert, C.J., 2009:
Hydrogen adsorption in HKUST-1: a combined inelastic neutron scattering and first-principles study

Luo, J.; Xu, H.; Liu, Y.; Zhao, Y.; Daemen, L.L.; Brown, C.; Timofeeva, T.V.; Ma, S.; Zhou, H-Cai., 2008:
Hydrogen adsorption in a highly stable porous rare-earth metal-organic framework: sorption properties and neutron diffraction studies

Kaye, S.S.; Long, J.R., 2007:
Hydrogen adsorption in dehydrated variants of the cyano-bridged framework compounds A2Zn3[Fe(CN)6]2.xH2O (A = H, Li, Na, K, Rb)

Wahiduzzaman, M.; Walther, C.F.J.; Heine, T., 2014:
Hydrogen adsorption in metal-organic frameworks: the role of nuclear quantum effects

Makhseed, S.; Samuel, J., 2008:
Hydrogen adsorption in microporous organic framework polymer

Bianco, S.; Giorcelli, M.; Musso, S.; Castellino, M.; Agresti, F.; Khandelwal, A.; Lo Russo, S.; Kumar, M.; Ando, Y.; Tagliaferro, A., 2009:
Hydrogen adsorption in several types of carbon nanotubes

Queen, W.L.; Bloch, E.D.; Brown, C.M.; Hudson, M.R.; Mason, J.A.; Murray, L.J.; Ramirez-Cuesta, A.Javier.; Peterson, V.K.; Long, J.R., 2012:
Hydrogen adsorption in the metal-organic frameworks Fe2(dobdc) and Fe2(O2)(dobdc)

Zhang, Z.W.; Zheng, W.T.; Jiang, Q., 2011:
Hydrogen adsorption on Ce/SWCNT systems: a DFT study

Saha, D.; Deng, S., 2011:
Hydrogen adsorption on Pd- and Ru-doped C60 fullerene at an ambient temperature

Venkatachalam, S.; Jacob, T., 2009:
Hydrogen adsorption on Pd-containing Au(111) bimetallic surfaces

Santana, J.A.; Rösch, N., 2012:
Hydrogen adsorption on and spillover from Au- and Cu-supported Pt3 and Pd3 clusters: a density functional study

Takehiro, N.; Liu, P.; Bergbreiter, A.; Nørskov, J.K.; Behm, R.Jürgen., 2014:
Hydrogen adsorption on bimetallic PdAu(111) surface alloys: minimum adsorption ensemble, ligand and ensemble effects, and ensemble confinement

Miwa, R.H.; Martins, T.B.; Fazzio, A., 2008:
Hydrogen adsorption on boron doped graphene: an ab initio study

Saha, D.; Deng, S., 2009:
Hydrogen adsorption on ordered mesoporous carbons doped with Pd, Pt, Ni, and Ru

Coelho, M.C.; Titus, E.; Cabral, G.; Neto, V.; Madaleno, J.C.; Fan, Q.H.; Sousa, A.C.M.; Grácio, J., 2008:
Hydrogen adsorption onto nickel modified carbon nanotubes

Sundell, G.; Thuvander, M.; Andrén, H-O., 2013:
Hydrogen analysis in APT: methods to control adsorption and dissociation of H₂

Kubota, M.; Shimmura, S.; Kubota, S.; Miyashita, H.; Kato, N.; Noda, K.; Ozawa, Y.; Usui, T.; Ishida, S.; Umezawa, K.; Kurihara, T.; Tsubota, K., 2011 :
Hydrogen and N-acetyl-L-cysteine rescue oxidative stress-induced angiogenesis in a mouse corneal alkali-burn model

Patel, S.K.S.; Singh, M.; Kalia, V.C., 2012:
Hydrogen and Polyhydroxybutyrate Producing Abilities of Bacillus spp. From Glucose in Two Stage System

Chase, P.A.; Stephan, D.W., 2008:
Hydrogen and amine activation by a frustrated Lewis pair of a bulky N-heterocyclic carbene and B(C6F5)3

Nadalig, T.; Greule, M.; Bringel, Fçoise.; Vuilleumier, Séphane.; Keppler, F., 2014:
Hydrogen and carbon isotope fractionation during degradation of chloromethane by methylotrophic bacteria

Jang, D.Myung.; Im, H.Soon.; Myung, Y.; Cho, Y.Jae.; Kim, H.Sung.; Back, S.Hyuk.; Park, J.; Cha, E.Hee.; Lee, M., 2013:
Hydrogen and carbon monoxide generation from laser-induced graphitized nanodiamonds in water

Classen, T.; Lingenfelder, Mí.; Wang, Y.; Chopra, R.; Virojanadara, C.; Starke, U.; Costantini, G.; Fratesi, G.; Fabris, S.; de Gironcoli, S.; Baroni, S.; Haq, S.; Raval, R.; Kern, K., 2007:
Hydrogen and coordination bonding supramolecular structures of trimesic acid on Cu(110)

Blasco, S.; Verdejo, Bña.; Clares, M.Paz.; Castillo, C.E.; Algarra, Aés.G.; Latorre, J.; Máñez, M.Angeles.; Basallote, M.G.; Soriano, C.; García-España, E., 2010:
Hydrogen and copper ion induced molecular reorganizations in two new scorpiand-like ligands appended with pyridine rings

Verdejo, Bña.; Ferrer, A.; Blasco, S.; Castillo, C.Esther.; González, J.; Latorre, J.; Máñez, M.Angeles.; Basallote, M.García.; Soriano, C.; García-España, E., 2007:
Hydrogen and copper ion-induced molecular reorganizations in scorpionand-like ligands. A potentiometric, mechanistic, and solid-state study

Martí-Rujas, J.; Colombo, L.; Lü, J.; Dey, A.; Terraneo, G.; Metrangolo, P.; Pilati, T.; Resnati, G., 2012:
Hydrogen and halogen bonding drive the orthogonal self-assembly of an organic framework possessing 2D channels

Chutia, R.; Das, G., 2014:
Hydrogen and halogen bonding in a concerted act of anion recognition: F⁻ induced atmospheric CO₂ uptake by an iodophenyl functionalized simple urea receptor

Grabowski, Sławomir.J., 2013:
Hydrogen and halogen bonds are ruled by the same mechanisms

Bahadur, H., 2008:
Hydrogen and its radiation effects in quartz crystals

Rooke, J.A.; Wallace, R.John.; Duthie, C-Anne.; McKain, N.; de Souza, S.Motta.; Hyslop, J.J.; Ross, D.W.; Waterhouse, T.; Roehe, R., 2014:
Hydrogen and methane emissions from beef cattle and their rumen microbial community vary with diet, time after feeding and genotype

Liu, X.; Li, R.; Ji, M.; Han, L., 2014:
Hydrogen and methane production by co-digestion of waste activated sludge and food waste in the two-stage fermentation process: substrate conversion and energy yield

Sarkar, S.; Li, S.; Wayland, B.B., 2012:
Hydrogen and methanol exchange processes for (TMP)Rh-OCH3(CH3OH) in binary solutions of methanol and benzene

Benoit, Séphane.L.; Maier, R.J., 2008:
Hydrogen and nickel metabolism in helicobacter species

Zhang, Q-li.; Du, J-bao.; Tang, C-shu., 2012:
Hydrogen and oxidative stress injury--from an inert gas to a medical gas

Xiao, K.; Shen, L-Cheng.; Wang, P., 2015:
Hydrogen and oxygen isotopes of lake water and geothermal spring water in arid area of south Tibet

Dublyansky, Y.V.; Spötl, C., 2009:
Hydrogen and oxygen isotopes of water from inclusions in minerals: design of a new crushing system and on-line continuous-flow isotope ratio mass spectrometric analysis

Sun, J.; Tang, C.; Wu, P.; Strosnider, W.H.J., 2014:
Hydrogen and oxygen isotopic composition of karst waters with and without acid mine drainage: impacts at a SW China coalfield

Chesson, L.A.; Valenzuela, L.O.; O'Grady, S.P.; Cerling, T.E.; Ehleringer, J.R., 2010:
Hydrogen and oxygen stable isotope ratios of milk in the United States

Cook, C.S.; Bockris, J.O., 1973:
Hydrogen and power

Rontani, J-François.; Aubert, C., 2007:
Hydrogen and trimethylsilyl transfers during EI mass spectral fragmentation of hydroxycarboxylic and oxocarboxylic acid trimethylsilyl derivatives

Carver, S.M.; Nelson, M.C.; Lepistö, R.; Yu, Z.; Tuovinen, O.H., 2012:
Hydrogen and volatile fatty acid production during fermentation of cellulosic substrates by a thermophilic consortium at 50 and 60 °C

Boland, J.J., 1992:
Hydrogen as a Probe of Semiconductor Surface Structure: The Ge(111)-c(2 x 8) Surface

Hirose, K., 2012:
Hydrogen as a fuel for today and tomorrow: expectations for advanced hydrogen storage materials/systems research

Qian, L.; Shen, J.; Chuai, Y.; Cai, J., 2014:
Hydrogen as a new class of radioprotective agent

Shen, M.; He, J.; Cai, J.; Sun, Q.; Sun, X.; Huo, Z., 2010 :
Hydrogen as a novel and effective treatment of acute carbon monoxide poisoning

Ghanizadeh, A., 2012:
Hydrogen as a novel hypothesized emerging treatment for oxidative stress in autism

Hong, Y.; Chen, S.; Zhang, J-M., 2011:
Hydrogen as a selective antioxidant: a review of clinical and experimental studies

Nedwell, D.B.; Banat, I.M., 1981:
Hydrogen as an electron donor for sulfate-reducing bacteria in slurries of salt marsh sediment

Jeong, Y.Jin.; Kang, Y.; Han, A-Rim.; Lee, Y-Min.; Kotani, H.; Fukuzumi, S.; Nam, W., 2008:
Hydrogen atom abstraction and hydride transfer reactions by iron(IV)-oxo porphyrins

Coniglio, A.; Galli, C.; Gentili, P.; Vadalà, R., 2008:
Hydrogen atom abstraction from C-H bonds of benzylamides by the aminoxyl radical BTNO: a kinetic study

Salamone, M.; DiLabio, G.A.; Bietti, M., 2012:
Hydrogen atom abstraction reactions from tertiary amines by benzyloxyl and cumyloxyl radicals: influence of structure on the rate-determining formation of a hydrogen-bonded prereaction complex

Salamone, M.; DiLabio, G.A.; Bietti, M., 2012:
Hydrogen atom abstraction selectivity in the reactions of alkylamines with the benzyloxyl and cumyloxyl radicals. The importance of structure and of substrate radical hydrogen bonding

Gansäuer, A.; Shi, L.; Otte, M.; Huth, I.; Rosales, A.; Sancho-Sanz, I.; Padial, N.M.; Oltra, J.Enrique., 2012:
Hydrogen atom donors: recent developments

Pomogaeva, A.; Chipman, D.M., 2013:
Hydrogen atom in water from ambient to high temperatures

Conejero Jarque, E.; Roso, L., 2006:
Hydrogen atom interacting with a multifrequency laser field: ionization and harmonic generation

Lymar, S.V.; Schwarz, H.A., 2012:
Hydrogen atom reactivity toward aqueous tert-butyl alcohol

Youn, S-Eui.; Ok, Y-Hwa.; Choi, J-Ho., 2008:
Hydrogen atom release dynamics in radical-radical reactions: saturated vs unsaturated

Bache, N.; Rand, K.D.; Roepstorff, P.; Ploug, M.; Jørgensen, T.J.D., 2008:
Hydrogen atom scrambling in selectively labeled anionic peptides upon collisional activation by MALDI tandem time-of-flight mass spectrometry

Owen, G.R., 2012:
Hydrogen atom storage upon Z-class borane ligand functions: an alternative approach to ligand cooperation

Milan, M.; Salamone, M.; Bietti, M., 2014:
Hydrogen atom transfer from 1,n-alkanediamines to the cumyloxyl radical. Modulating C-H deactivation through acid-base interactions and solvent effects

Shi, Y.; Ervin, K.M., 2008:
Hydrogen atom transfer reactions of C2-, C4-, and C6-: bond dissociation energies of linear H-C2n- and H-C2n (n = 1, 2, 3)

Wu, A.; Mayer, J.M., 2008:
Hydrogen atom transfer reactions of a ruthenium imidazole complex: hydrogen tunneling and the applicability of the Marcus cross relation

Zdilla, M.J.; Dexheimer, J.L.; Abu-Omar, M.M., 2007:
Hydrogen atom transfer reactions of imido manganese(V) corrole: one reaction with two mechanistic pathways

Warren, J.J.; Mayer, J.M., 2008:
Hydrogen atom transfer reactions of iron-porphyrin-imidazole complexes as models for histidine-ligated heme reactivity

Oohara, W.; Fukumasa, O., 2010:
Hydrogen atomic pair-ion production on catalyst surface

Feldman, V.I.; Sukhov, F.F.; Orlov, A.Yu., 2008:
Hydrogen atoms in solid xenon: trapping site structure, distribution, and stability as revealed by EPR studies in monoisotopic and isotopically enriched xenon matrices

Stodolna, A.S.; Rouzée, A.; Lépine, F.; Cohen, S.; Robicheaux, F.; Gijsbertsen, A.; Jungmann, J.H.; Bordas, C.; Vrakking, M.J.J., 2013:
Hydrogen atoms under magnification: direct observation of the nodal structure of Stark states

Guillena, G.; J Ramón, D.; Yus, M., 2009:
Hydrogen autotransfer in the N-alkylation of amines and related compounds using alcohols and amines as electrophiles

Shi, Y.; Zhao, X-Tao.; Cao, P.; Hu, Y.; Zhang, L.; Jia, Y.; Lu, Z., 2009:
Hydrogen bio-production through anaerobic microorganism fermentation using kitchen wastes as substrate

Qiu, M-Qiang., 2010:
Hydrogen bis-(1,2,4-triazole)] 1,2,4-triazolium bis-(3-carb-oxy-4-hy-droxy-benzene-sulfonate) 1,2,4-triazole disolvate

Wang, W-Xiang., 2010:
Hydrogen bis-[2-(4-ammonio-phen-oxy)acetate] triiodide

Haghjoo, F.; Barnes, N.A.; Pritchard, R.; Godfrey, S.M.; Ratcliffe, S., 2012:
Hydrogen bis[tris(4-fluorophenyl)phosphane oxide] triiodide

Felgenträger, A.; Maisch, T.; Dobler, D.; Späth, A., 2013:
Hydrogen bond acceptors and additional cationic charges in methylene blue derivatives: photophysics and antimicrobial efficiency

Grate, J.W.; Patrash, S.J.; Kaganove, S.N.; Wise, B.M., 1999:
Hydrogen bond acidic polymers for surface acoustic wave vapor sensors and arrays

Wang, W.; Wang, D.; Zhang, Y.; Ji, B.; Tian, A., 2011:
Hydrogen bond and halogen bond inside the carbon nanotube

Xie, L.; Liu, H.; Han, S.; Yue, B.; Yan, L., 2013:
Hydrogen bond and proton transport in acid-base complexes and amphoteric molecules by density functional theory calculations and 1H and 31P nuclear magnetic resonance spectroscopy

Kopylovich, M.N.; Mahmudov, K.T.; Mizar, A.; Pombeiro, A.J.L., 2011:
Hydrogen bond assisted activation of a dinitrile towards nucleophilic attack

Nayak, S.; Aromí, G.; Teatc, S.J.; Ribas-Ariño, J.; Gamez, P.; Reedijk, J., 2011:
Hydrogen bond assisted co-crystallization of a bimetallic Mn(III)₂Ni(II)₂ cluster and a Ni(II)₂ cluster unit: synthesis, structure, spectroscopy and magnetism

Yin, Z.; Zhang, Y.; He, J.; Cheng, J-Pei., 2007:
Hydrogen bond assisted helical self-assembly into [n]catenane

Huang, Y.; Ma, Z.; Zhang, X.; Zhou, G.; Zhou, Y.; Sun, C.Q., 2014:
Hydrogen bond asymmetric local potentials in compressed ice

Xue, M.; Wang, X.; Wang, H.; Chen, D.; Tang, B., 2011:
Hydrogen bond breakage by fluoride anions in a simple CdTe quantum dot/gold nanoparticle FRET system and its analytical application

Jana, B.; Pal, S.; Bagchi, B., 2008:
Hydrogen bond breaking mechanism and water reorientational dynamics in the hydration layer of lysozyme

Ormazabal-Toledo, R.; Santos, Jé.G.; Ríos, P.; Castro, E.A.; Campodónico, P.R.; Contreras, R., 2013:
Hydrogen bond contribution to preferential solvation in S(N)Ar reactions

Zakavi, S.; Rahiminezhad, H.; Alizadeh, R., 2011:
Hydrogen bond controlled adduct formation of meso-tetra(4-sulfonatophenyl)porphyrin with protic acids: a UV-vis spectroscopic study

Pérez, Cóbal.; Zaleski, D.P.; Seifert, N.A.; Temelso, B.; Shields, G.C.; Kisiel, Z.; Pate, B.H., 2015:
Hydrogen bond cooperativity and the three-dimensional structures of water nonamers and decamers

Albrecht, L.; Chowdhury, S.; Boyd, R.J., 2013:
Hydrogen bond cooperativity in water hexamers: atomic energy perspective of local stabilities

Ahmed, A.A.; Hilal, R.H.; Shibl, M.F., 2014:
Hydrogen bond coupling in sodium dihydrogen triacetate

Sigala, P.A.; Caaveiro, J.M.M.; Ringe, D.; Petsko, G.A.; Herschlag, D., 2009:
Hydrogen bond coupling in the ketosteroid isomerase active site

Davies, S.G.; Fletcher, A.M.; Thomson, J.E., 2014:
Hydrogen bond directed epoxidation: diastereoselective olefinic oxidation of allylic alcohols and amines

Sassi, M.; Carter, D.J.; Uberuaga, B.P.; Stanek, C.R.; Mancera, R.L.; Marks, N.A., 2015:
Hydrogen bond disruption in DNA base pairs from (14)C transmutation

Amorati, R.; Pedulli, G.Franco., 2011:
Hydrogen bond donating ability of meta and para hydroxy phenoxyl radicals

Zhang, Y.; Chen, J.; Kohler, B., 2014:
Hydrogen bond donors accelerate vibrational cooling of hot purine derivatives in heavy water

Nikkonen, T.; Haavikko, R.; Helaja, J., 2009:
Hydrogen bond driven self-assembled C2-symmetric chlorin syn dimers; unorthodox models for chlorophyll 'special pairs' in photosynthetic reaction centres

Paolantoni, M.; Sassi, P.; Morresi, A.; Santini, S., 2007:
Hydrogen bond dynamics and water structure in glucose-water solutions by depolarized Rayleigh scattering and low-frequency Raman spectroscopy

Chowdhary, J.; Ladanyi, B.M., 2009:
Hydrogen bond dynamics at the water/hydrocarbon interface

Moré, Ré.; Scholz, M.; Busse, G.; Busse, L.; Paulmann, C.; Tolkiehn, M.; Techert, S., 2013:
Hydrogen bond dynamics in crystalline β-9-anthracene carboxylic acid--a combined crystallographic and spectroscopic study

Paesani, F., 2011:
Hydrogen bond dynamics in heavy water studied with quantum dynamical simulations

Rawat, N.; Biswas, P., 2014:
Hydrogen bond dynamics in intrinsically disordered proteins

Sigala, P.A.; Tsuchida, M.A.; Herschlag, D., 2009:
Hydrogen bond dynamics in the active site of photoactive yellow protein

Poterya, V.; Šištík, Láš.; Slavíček, P.; Fárník, M., 2012:
Hydrogen bond dynamics in the excited states: photodissociation of phenol in clusters

Stare, J.; Mavri, J.; Grdadolnik, Jže.; Zidar, J.; Maksić, Z.B.; Vianello, R., 2011:
Hydrogen bond dynamics of histamine monocation in aqueous solution: Car-Parrinello molecular dynamics and vibrational spectroscopy study

Vöhringer-Martinez, E.; Link, O.; Lugovoy, E.; Siefermann, K.R.; Wiederschein, F.; Grubmüller, H.; Abel, B., 2015:
Hydrogen bond dynamics of superheated water and methanol by ultrafast IR-pump and EUV-photoelectron probe spectroscopy

Krystkowiak, E.; Koput, J.; Maciejewski, A., 2012:
Hydrogen bond effects in the ground and excited singlet states of 4H-1-benzopyrane-4-thione in water--theory and experiment

Muniz-Miranda, F.; Pagliai, M.; Cardini, G.; Righini, R., 2013:
Hydrogen bond effects in the vibrational spectra of 1,3-propanediol in acetonitrile: ab initio and experimental study

Khedkar, J.K.; Deshmukh, M.M.; Gadre, S.R.; Gejji, S.P., 2012:
Hydrogen bond energies and cooperativity in substituted calix[n]arenes (n = 4, 5)

Konold, P.; Regmi, C.K.; Chapagain, P.P.; Gerstman, B.S.; Jimenez, R., 2014:
Hydrogen bond flexibility correlates with Stokes shift in mPlum variants

Timmer, R.L.A.; Bakker, H.J., 2009:
Hydrogen bond fluctuations of the hydration shell of the bromide anion

Demeter, A.; Mile, Vória.; Bérces, T., 2007:
Hydrogen bond formation between 4-(dimethylamino)pyridine and aliphatic alcohols

Wu, Y-Ju.; Tsai, T.W.T.; Huang, S-Jong.; Mou, Y.; Lin, C-Jie.; Chan, J.C.C., 2014:
Hydrogen bond formation between citrate and phosphate ions in spherulites of fluorapatite

Sheng, J.; Zhang, W.; Hassan, A.E.A.; Gan, J.; Soares, A.S.; Geng, S.; Ren, Y.; Huang, Z., 2012 :
Hydrogen bond formation between the naturally modified nucleobase and phosphate backbone

Kondo, T.; Koschella, A.; Heublein, B.; Klemm, D.; Heinze, T., 2008:
Hydrogen bond formation in regioselectively functionalized 3-mono-O-methyl cellulose

Weiss, A.K.H.; Hofer, T.S.; Randolf, B.R.; Bhattacharjee, A.; Rode, B.M., 2011:
Hydrogen bond formation of formamide and N-methylformamide in aqueous solution studied by quantum mechanical charge field-molecular dynamics (QMCF-MD)

Osaki, T.; Suzuki, Y.; Hirokawa, K.; Shimada, R., 2012:
Hydrogen bond formations between pyrazine and formic acid and between pyrazine and trichloroacetic acid

Guo, J.; Tolstoy, P.M.; Koeppe, B.; Golubev, N.S.; Denisov, G.S.; Smirnov, S.N.; Limbach, H-Heinrich., 2013:
Hydrogen bond geometries and proton tautomerism of homoconjugated anions of carboxylic acids studied via H/D isotope effects on 13C NMR chemical shifts

Voss, F.; Herdtweck, E.; Bach, T., 2011:
Hydrogen bond induced enantioselectivity in Mn(salen)-catalysed sulfoxidaton reactions

Sjöström, J.; Mattsson, J.; Bergman, R.; Swenson, J., 2011:
Hydrogen bond induced nonmonotonic composition behavior of the glass transition in aqueous binary mixtures

Fonseca, T.L.; Coutinho, K.; Canuto, S., 2010:
Hydrogen bond interactions between acetone and supercritical water

Shibuya, Y.; Takahashi, R.; Okubo, T.; Suzuki, H.; Sugiura, M.; Noguchi, T., 2010:
Hydrogen bond interactions of the pheophytin electron acceptor and its radical anion in photosystem II as revealed by Fourier transform infrared difference spectroscopy

Bloch, K.; Lawrence, C.P., 2010 :
Hydrogen bond lifetimes and clustering of methanol in carbon tetrachloride solutions

Zheng, J.; Fayer, M.D., 2007:
Hydrogen bond lifetimes and energetics for solute/solvent complexes studied with 2D-IR vibrational echo spectroscopy

Yasomanee, J.P.; Demchenko, A.V., 2015:
Hydrogen bond mediated aglycone delivery: synthesis of linear and branched α-glucans

Rosenfeld, D.E.; Kwak, K.; Gengeliczki, Z.; Fayer, M.D., 2010:
Hydrogen bond migration between molecular sites observed with ultrafast 2D IR chemical exchange spectroscopy

Sarti, S.; Truzzolillo, D.; Bordi, F., 2012:
Hydrogen bond network relaxation in aqueous polyelectrolyte solutions: the effect of temperature

Bakó, I.; Bencsura, A.; Hermannson, K.; Bálint, S.; Grósz, Tás.; Chihaia, V.; Oláh, J., 2014:
Hydrogen bond network topology in liquid water and methanol: a graph theory approach

Livesay, D.R.; Huynh, D.H.; Dallakyan, S.; Jacobs, D.J., 2008:
Hydrogen bond networks determine emergent mechanical and thermodynamic properties across a protein family

Medhekar, N.V.; Ramasubramaniam, A.; Ruoff, R.S.; Shenoy, V.B., 2010:
Hydrogen bond networks in graphene oxide composite paper: structure and mechanical properties

da Silva, J.Angeiras.Batista.; Moreira, F.George.Brady.; Dos Santos, V.Marques.Leite.; Longo, R.Luiz., 2010:
Hydrogen bond networks in water and methanol with varying interaction strengths

Knight, C.; Singer, S.J., 2008:
Hydrogen bond ordering in ice V and the transition to ice XIII

Zhang, X.; Chen, T.; Yan, H-Juan.; Wang, D.; Fan, Q-Hua.; Wan, L-Jun.; Ghosh, K.; Yang, H-Bo.; Stang, P.J., 2010:
Hydrogen bond partner reorganization in the coadsorption of a monodendron and pyridylethynyl derivatives

Solomentsev, G.Y.; English, N.J.; Mooney, D.A., 2011:
Hydrogen bond perturbation in hen egg white lysozyme by external electromagnetic fields: a nonequilibrium molecular dynamics study

Singh, D.; Pathak, K., 2013:
Hydrogen bond replacement--unearthing a novel molecular mechanism of surface solid dispersion for enhanced solubility of a drug for veterinary use

Gavezzotti, A., 2008:
Hydrogen bond strength and bond geometry in cyclic dimers of crystalline carboxylic acids

Lynden-Bell, R.M.; Giovambattista, N.; Debenedetti, P.G.; Head-Gordon, T.; Rossky, P.J., 2011:
Hydrogen bond strength and network structure effects on hydration of non-polar molecules

Zheng, P.; Takayama, S-ichi.J.; Mauk, A.Grant.; Li, H., 2012:
Hydrogen bond strength modulates the mechanical strength of ferric-thiolate bonds in rubredoxin

Poorabdollah, H.; Omidyan, R.; Solimannejad, M.; Azimi, G., 2015:
Hydrogen bond strengthening of cis-trans glyoxal dimers in electronic excited states: a theoretical study

Rapp, C.; Klerman, H.; Levine, E.; McClendon, C.L., 2013:
Hydrogen bond strengths in phosphorylated and sulfated amino acid residues

Bonetti, C.; Mathes, T.; van Stokkum, I.H.M.; Mullen, K.M.; Groot, M-Louise.; van Grondelle, R.; Hegemann, P.; Kennis, J.T.M., 2008:
Hydrogen bond switching among flavin and amino acid side chains in the BLUF photoreceptor observed by ultrafast infrared spectroscopy

Duan, D.; Tian, F.; He, Z.; Meng, X.; Wang, L.; Chen, C.; Zhao, X.; Liu, B.; Cui, T., 2012:
Hydrogen bond symmetrization and superconducting phase of HBr and HCl under high pressure: An ab initio study

Trita, A.Stefania.; Roisnel, T.; Mongin, F.; Chevallier, F., 2014:
Hydrogen bond templated 1:1 macrocyclization through an olefin metathesis/hydrogenation sequence

Yenagi, J.; Arlikatti, N.V.; Tonannavar, J., 2011:
Hydrogen bond, dimerization and vibrational modes in 2-chloro-3-hydroxybenzaldehyde and 3-chloro-4-hydroxybenzaldehyde from vibrational and ab initio studies

Skarmoutsos, I.; Guardia, E.; Samios, J., 2010:
Hydrogen bond, electron donor-acceptor dimer, and residence dynamics in supercritical CO(2)-ethanol mixtures and the effect of hydrogen bonding on single reorientational and translational dynamics: A molecular dynamics simulation study

Liu, X.; Zhang, N.; Yang, J.; Liang, Y.; Zhang, R.; Dong, D., 2013:
Hydrogen bond-assisted 6π-azaelectrocyclization of penta-2,4-dienamides: synthesis of dihydropyridin-2(3H)-ones

Widanapathirana, L.; Li, X.; Zhao, Y., 2012:
Hydrogen bond-assisted macrocyclic oligocholate transporters in lipid membranes

Cerda, J.F.; Koder, R.L.; Lichtenstein, B.R.; Moser, C.M.; Miller, A-Frances.; Dutton, P.Leslie., 2008:
Hydrogen bond-free flavin redox properties: managing flavins in extreme aprotic solvents

Eralp, T.; Shavorskiy, A.; Zheleva, Z.V.; Dhanak, V.R.; Held, G., 2010:
Hydrogen bond-induced pair formation of glycine on the chiral Cu{531} surface

Sambrook, M.R.; Hiscock, J.R.; Cook, A.; Green, A.Christopher.; Holden, I.; Vincent, J.C.; Gale, P.A., 2012:
Hydrogen bond-mediated recognition of the chemical warfare agent soman (GD)

Brooks, A.C.; Martin, L.; Day, P.; Lopes, E.B.; Almeida, M.; Kikuchi, K.; Fujita, W.; Sasamori, K.; Aktusu, H.; Wallis, J.D., 2013:
Hydrogen bonded anion ribbons, networks and clusters and sulfur-anion interactions in novel radical cation salts of BEDT-TTF with sulfamate, pentaborate and bromide

Shokri, A.; Schmidt, J.; Wang, X-Bin.; Kass, S.R., 2012:
Hydrogen bonded arrays: the power of multiple hydrogen bonds

Zhao, X.; Li, Z-Ting., 2010:
Hydrogen bonded aryl amide and hydrazide oligomers: a new generation of preorganized soft frameworks

Sundaramurthy, A.; Vergaelen, M.; Maji, S.; Auzély-Velty, R.; Zhang, Z.; De Geest, B.G.; Hoogenboom, R., 2015:
Hydrogen bonded multilayer films based on poly(2-oxazoline)s and tannic acid

Bakó, I.; Megyes, Tünde.; Bálint, S.; Chihaia, V.; Bellissent-Funel, M-Claire.; Krienke, H.; Kopf, A.; Suh, S-Hyuck., 2010:
Hydrogen bonded network properties in liquid formamide

Sun, Q.; Wang, Q.; Ding, D., 2014:
Hydrogen bonded networks in supercritical water

da Fonseca Antunes, Aé.B.; Dierendonck, M.; Vancoillie, G.; Remon, J.Paul.; Hoogenboom, R.; De Geest, B.G., 2014:
Hydrogen bonded polymeric multilayer films assembled below and above the cloud point temperature

Chakraborty, D.; Chandra, A., 2011:
Hydrogen bonded structure and dynamics of liquid-vapor interface of water-ammonia mixture: an ab initio molecular dynamics study

Choudhuri, J.Roy.; Chandra, A., 2015:
Hydrogen bonded structure, polarity, molecular motion and frequency fluctuations at liquid-vapor interface of a water-methanol mixture: an ab initio molecular dynamics study

Adriaenssens, L.; Ballester, P., 2013:
Hydrogen bonded supramolecular capsules with functionalized interiors: the controlled orientation of included guests

Ouhib, F.; Raynal, M.; Jouvelet, B.; Isare, B.; Bouteiller, L., 2011:
Hydrogen bonded supramolecular polymers in moderately polar solvents

Mugnaini, V.; Lucarini, M., 2007:
Hydrogen bonding affects the persistency of alkyl peroxy radicals

Fedorova, I.V.; Safonova, L.P.; Kiselev, M.G., 2014:
Hydrogen bonding analysis of phosphoric acid-N,N-dimethylformamide mixtures

Uyanik, M.; Yasui, T.; Ishihara, K., 2014:
Hydrogen bonding and alcohol effects in asymmetric hypervalent iodine catalysis: enantioselective oxidative dearomatization of phenols

Lorenz, C.D.; Faraudo, J.; Travesset, A., 2008:
Hydrogen bonding and binding of polybasic residues with negatively charged mixed lipid monolayers

Rocher, N.; Frech, R., 2007:
Hydrogen bonding and cation coordination effects in primary and secondary amines dissolved in carbon tetrachloride

Gowda, C.M.; Vasconcelos, F.; Schwartz, E.; van Eck, E.R.H.; Marsman, M.; Cornelissen, J.J.L.M.; Rowan, A.E.; de Wijs, G.A.; Kentgens, A.P.M., 2011:
Hydrogen bonding and chemical shift assignments in carbazole functionalized isocyanides from solid-state NMR and first-principles calculations

Malsam, J.; Aksan, A., 2010:
Hydrogen bonding and compartmentalization of water in supercooled and frozen aqueous acetone solutions

Meng, Y.; Zhang, C.; Ji, M.; Hao, C.; Qiu, J., 2013:
Hydrogen bonding and coordination bonding in the electronically excited states of Cu2(L)2 (L=5-(4-pyridyl)tetrazole)MeOH: a TDDFT study

Wilkinson, L.A.; McNeill, L.; Scattergood, P.A.; Patmore, N.J., 2014:
Hydrogen bonding and electron transfer between dimetal paddlewheel compounds containing pendant 2-pyridone functional groups

Khoo, K-Sen.; Teh, E-Jen.; Leong, Y-Kwong.; Ong, B.Choon., 2009:
Hydrogen bonding and interparticle forces in platelet alpha-Al2O3 dispersions: yield stress and zeta potential

Malsam, J.; Aksan, A., 2009:
Hydrogen bonding and kinetic/thermodynamic transitions of aqueous trehalose solutions at cryogenic temperatures

Vrhovšek, A.; Gereben, O.; Jamnik, A.; Pusztai, László., 2011:
Hydrogen bonding and molecular aggregates in liquid methanol, ethanol, and 1-propanol

Ojeda, O.U.; Çağın, T., 2011:
Hydrogen bonding and molecular rearrangement in 1,3,5-triamino-2,4,6-trinitrobenzene under compression

Brown, S.; Cao, J.; Musfeldt, J.L.; Conner, M.M.; McConnell, A.C.; Southerland, H.I.; Manson, J.L.; Schlueter, J.A.; Phillips, M.D.; Turnbull, M.M.; Landee, C.P., 2007:
Hydrogen bonding and multiphonon structure in copper pyrazine coordination polymers

Huggins, W.; Ghosh, S.K.; Wollenzien, P., 2009:
Hydrogen bonding and packing density are factors most strongly connected to limiting sites of high flexibility in the 16S rRNA in the 30S ribosome

Titi, H.M.; Goldberg, I., 2009:
Hydrogen bonding and pi-pi interactions in 1-benzofuran-2,3-dicarboxylic acid and its 1:1 cocrystals with pyridine, phenazine and 1,4-phenylenediamine

Yang, X.; Li, J.; Zhao, X-Hua.; Wang, H-Wen.; Shan, Y-Kui., 2007:
Hydrogen bonding and pi-pi stacking in the three-dimensional supramolecular complex bis(4,4'-bipyridinium) diaquadioxalatoferrate(II) bis(hydrogen oxalate)

Paton, R.S.; Goodman, J.M., 2009:
Hydrogen bonding and pi-stacking: how reliable are force fields? A critical evaluation of force field descriptions of nonbonded interactions

Seliger, J.; Žagar, V., 2015:
Hydrogen bonding and proton transfer in cocrystals of 4,4'-bipyridyl and organic acids studied using nuclear quadrupole resonance

Silantyev, G.A.; Filippov, O.A.; Tolstoy, P.M.; Belkova, N.V.; Epstein, L.M.; Weisz, K.; Shubina, E.S., 2013:
Hydrogen bonding and proton transfer to ruthenium hydride complex CpRuH(dppe): metal and hydride dichotomy

Reimers, J.R.; Cai, Z-Li., 2012:
Hydrogen bonding and reactivity of water to azines in their S1 (n,π*) electronic excited states in the gas phase and in solution

Cornet, Séphanie.M.; Dillon, K.B.; Howard, J.A.K.; Monks, P.K.; Thompson, A.L., 2009:
Hydrogen bonding and short contacts in [2,4,6-tris(trifluoromethyl)phenyl]phosphinic acid

Schlamadinger, D.E.; Gable, J.E.; Kim, J.E., 2010:
Hydrogen bonding and solvent polarity markers in the uv resonance raman spectrum of tryptophan: application to membrane proteins

Martin, E.; Samoilova, R.I.; Narasimhulu, K.V.; Lin, T-Jen.; O'Malley, P.J.; Wraight, C.A.; Dikanov, S.A., 2011:
Hydrogen bonding and spin density distribution in the Qb semiquinone of bacterial reaction centers and comparison with the Qa site

Latosińska, J.N.; Seliger, J.; Zagar, V.; Burchardt, D.V., 2009 :
Hydrogen bonding and stacking pi-pi interactions in solid 6-thioguanine and 6-mercaptopurine (antileukemia and antineoplastic drugs) studied by NMR-NQR double resonance spectroscopy and density functional theory

Boufas, S.; Hadjadj, N.Eddine.; Merazig, H.; Moliterni, A.Grazia.; Altomare, A., 2007:
Hydrogen bonding and structure of Ba2Ru2Cl10O.10H2O

López, J.Carlos.; Alonso, Jé.Luis.; Peña, I.; Vaquero, V., 2011:
Hydrogen bonding and structure of uracil-water and thymine-water complexes

Jezierska-Mazzarello, A.; Panek, Jław.J.; Szatyłowicz, H.; Krygowski, T.Marek., 2011:
Hydrogen bonding as a modulator of aromaticity and electronic structure of selected ortho-hydroxybenzaldehyde derivatives

Zhang, Q-Guo.; Wang, N-Nan.; Wang, S-Long.; Yu, Z-Wu., 2011:
Hydrogen bonding behaviors of binary systems containing the ionic liquid 1-butyl-3-methylimidazolium trifluoroacetate and water/methanol

Ting, M.; Peters, N.J.S., 2010:
Hydrogen bonding between FNO and H2O: structure and energetics

Viswanathan, K.; Long, T.E.; Ward, T.C., 2009:
Hydrogen bonding between adenine-modified surfaces and terminal thymine-functionalized polystyrene: influence of the surface adenine concentration on polymer recognition

Marushkevich, K.; Khriachtchev, L.; Räsänen, M., 2007:
Hydrogen bonding between formic acid and water: complete stabilization of the intrinsically unstable conformer

Abraham, M.H.; Gola, J.M.R.; Cometto-Muñiz, J.Enrique.; Acree, W.E., 2014:
Hydrogen bonding between solutes in solvents octan-1-ol and water

Li, P.; Bandyopadhyaya, A.K.; Covey, D.F.; Steinbach, J.Henry.; Akk, G., 2010 :
Hydrogen bonding between the 17beta-substituent of a neurosteroid and the GABA(A) receptor is not obligatory for channel potentiation

Martin, E.; Baldansuren, A.; Lin, T-Jen.; Samoilova, R.I.; Wraight, C.A.; Dikanov, S.A.; O'Malley, P.J., 2013:
Hydrogen bonding between the Q(B) site ubisemiquinone and Ser-L223 in the bacterial reaction center: a combined spectroscopic and computational perspective

Maiti, K.Sankar.; Samsonyuk, A.; Scheurer, C.; Steinel, T., 2013:
Hydrogen bonding characteristics of 2-pyrrolidinone: a joint experimental and theoretical study

Michaelson, S.; Akhvlediani, R.; Hoffman, A., 2011:
Hydrogen bonding configuration and thermal stability of ambient exposed and in situ hydrogenated polycrystalline diamond surfaces studied by high resolution electron energy loss spectroscopy

Thomas, D.A.; Sohn, C.Ho.; Gao, J.; Beauchamp, J.L., 2015:
Hydrogen bonding constrains free radical reaction dynamics at serine and threonine residues in peptides

Boggio-Pasqua, M.; Robb, M.A.; Groenhof, G., 2009:
Hydrogen bonding controls excited-state decay of the photoactive yellow protein chromophore

Li, S-Chun.; Chu, L-Na.; Gong, X-Qing.; Diebold, U., 2010:
Hydrogen bonding controls the dynamics of catechol adsorbed on a TiO2(110) surface

Kumar, R.; Schmidt, J.R.; Skinner, J.L., 2007:
Hydrogen bonding definitions and dynamics in liquid water

Arey, J.Samuel.; Aeberhard, P.C.; Lin, I-Chun.; Rothlisberger, U., 2009:
Hydrogen bonding described using dispersion-corrected density functional theory

Zhao, S-Bin.; Bilodeau, E.; Lemieux, Vérie.; Beauchemin, Aé.M., 2013 :
Hydrogen bonding directed intermolecular Cope-type hydroamination of alkenes

Xu, J-Fei.; Niu, L-Ya.; Chen, Y-Zhe.; Wu, L-Zhu.; Tung, C-Ho.; Yang, Q-Zheng., 2014:
Hydrogen bonding directed self-assembly of small-molecule amphiphiles in water

Wang, F.; Gillissen, M.A.J.; Stals, P.J.M.; Palmans, A.R.A.; Meijer, E.W., 2013:
Hydrogen bonding directed supramolecular polymerisation of oligo(phenylene-ethynylene)s: cooperative mechanism, core symmetry effect and chiral amplification

Taylor, R.A.; Law, D.J.; Sunley, G.J.; White, A.J.P.; Britovsek, G.J.P., 2008:
Hydrogen bonding directs the H2O2 oxidation of platinum(II) to a cis-dihydroxo platinum(IV) complex

Ilangovan, A.; Venkatesan, P.; Ganesh Kumar, R., 2013:
Hydrogen bonding due to regioisomerism and its effect on the supramolecular architecture of diethyl 2-[(2/4-hydroxyanilino)methylidene]malonates

Krishna, R.; van Baten, J.M., 2010:
Hydrogen bonding effects in adsorption of water-alcohol mixtures in zeolites and the consequences for the characteristics of the Maxwell-Stefan diffusivities

Hu, C.; Noll, B.C.; Piccoli, P.M.B.; Schultz, A.J.; Schulz, C.E.; Scheidt, W.Robert., 2008:
Hydrogen bonding effects on the electronic configuration of five-coordinate high-spin iron(II) porphyrinates

Yago, T.; Gohdo, M.; Wakasa, M., 2010:
Hydrogen bonding effects on the reorganization energy for photoinduced charge separation reaction between porphyrin and quinone studied by nanosecond laser flash photolysis

Gonjo, T.; Futami, Y.; Morisawa, Y.; Wojcik, M.J.; Ozaki, Y., 2011:
Hydrogen bonding effects on the wavenumbers and absorption intensities of the OH fundamental and the first, second, and third overtones of phenol and 2,6-dihalogenated phenols studied by visible/near-infrared/infrared spectroscopy

Biliskov, N.; Baranović, G., 2008:
Hydrogen bonding in 1,1'-Bi-2-naphthol within the polarizable continuum model

Seliger, J.; Zagar, V.; Gotoh, K.; Ishida, H.; Konnai, A.; Amino, D.; Asaji, T., 2009:
Hydrogen bonding in 1,2-diazine-chloranilic acid (2 : 1) studied by a 14N nuclear quadrupole coupling tensor and multi-temperature X-ray diffraction

Gotoh, K.; Asaji, T.; Ishida, H., 2008:
Hydrogen bonding in 1,2-diazine-chloranilic acid (2/1) and 1,4-diazine-chloranilic acid (2/1) determined at 110 K

Skarmoutsos, I.; Dellis, D.; Matthews, R.P.; Welton, T.; Hunt, P.A., 2012:
Hydrogen bonding in 1-butyl- and 1-ethyl-3-methylimidazolium chloride ionic liquids

Messai, A.; Benali-Cherif, R.; Jeanneau, E.; Benali-Cherif, N., 2012:
Hydrogen bonding in 1-carb-oxy-propanaminium nitrate

Corrêa, R.S.; Martins, F.T.; Ellena, J.; dos Santos, M.H.; Doriguetto, A.C., 2008:
Hydrogen bonding in 2-(2-oxothiazolidin-3-yl)-4,5-dihydrothiazolium hydrogen sulfate monohydrate

Benali-Cherif, N.; Allouche, F.; Direm, A.; Soudani, K., 2009:
Hydrogen bonding in 2-carboxy-anilinium dihydrogen phosphite at 100 K

Geiger, D.K.; Parsons, D.E., 2014:
Hydrogen bonding in 4-nitrobenzene-1,2-diamine and two hydrohalide salts

Antzutkin, O.N.; Iuga, D.; Filippov, A.V.; Kelly, R.T.; Becker-Baldus, J.; Brown, S.P.; Dupree, R., 2013:
Hydrogen bonding in Alzheimer's amyloid-β fibrils probed by 15N{17O} REAPDOR solid-state NMR spectroscopy

Makal, A.; Schilf, W.; Kamieński, B.; Szady-Chelmieniecka, A.; Grech, E.; Woźniak, K., 2010:
Hydrogen bonding in Schiff bases--NMR, structural and experimental charge density studies

Tamenori, Y.; Takahashi, O.; Yamashita, K.; Yamaguchi, T.; Okada, K.; Tabayashi, K.; Gejo, T.; Honma, K., 2010:
Hydrogen bonding in acetone clusters probed by near-edge x-ray absorption fine structure spectroscopy in the carbon and oxygen K-edge regions

Moynihan, H.A.; Hayes, J.A.; Eccles, K.S.; Coles, S.J.; Lawrence, S.E., 2014:
Hydrogen bonding in crystal forms of primary amide functionalised glucose and cellobiose

Smith, G.; Wermuth, U.D., 2012:
Hydrogen bonding in cyclic imides and amide carboxylic acid derivatives from the facile reaction of cis-cyclohexane-1,2-carboxylic anhydride with o- and p-anisidine and m- and p-aminobenzoic acids

Messai, A.; Benali-Cherif, N.; Jeanneau, E.; Luneau, D., 2009:
Hydrogen bonding in cytosinium dihydrogen phosphite

Krawczuk, A.; Stadnicka, K., 2007:
Hydrogen bonding in diaquatetrakis(urea-kappaO)M(II) dinitrates, with M = Ni and Co

Cimas, A.; Mó, O.; Yáñez, M.; Martín, N.; Corral, Iés., 2011:
Hydrogen bonding in electronically excited states: a comparison between formic acid dimer and its mono-substituted thioderivatives

Pu, L.; Sun, Y.; Zhang, Z., 2010:
Hydrogen bonding in hydrates with one acetic acid molecule

Lee, S.C.; Kaplow, R., 1970:
Hydrogen bonding in hydrochloric Acid solutions

Winter, B.; Hergenhahn, U.; Faubel, M.; Björneholm, O.; Hertel, I.V., 2007:
Hydrogen bonding in liquid water probed by resonant Auger-electron spectroscopy

Roussenova, M.; Andrieux, J-Christophe.; Alam, M.Ashraf.; Ubbink, J., 2014:
Hydrogen bonding in maltooligomer-glycerol-water matrices: Relation to physical state and molecular free volume

Tamenori, Y.; Okada, K.; Takahashi, O.; Arakawa, S.; Tabayashi, K.; Hiraya, A.; Gejo, T.; Honma, K., 2008:
Hydrogen bonding in methanol clusters probed by inner-shell photoabsorption spectroscopy in the carbon and oxygen K-edge regions

Wu, X.; Tan, K.; Tang, Z.; Lu, X., 2014:
Hydrogen bonding in microsolvation: photoelectron imaging and theoretical studies on Au(x)(-)-(H2O)(n) and Au(x)(-)-(CH3OH)(n) (x = 1, 2; n = 1, 2) complexes

Joshi, R.; Ghanty, T.K.; Mukherjee, T.; Naumov, S., 2013:
Hydrogen bonding in neutral and cation dimers of H2Se with H2O, H2S, and H2Se

Liu, Z.; Remsing, R.C.; Liu, D.; Moyna, G.; Pophristic, V., 2009:
Hydrogen bonding in ortho-substituted arylamides: the influence of protic solvents

Cuypers, R.; Sudhölter, E.J.R.; Zuilhof, H., 2010:
Hydrogen bonding in phosphine oxide/phosphate-phenol complexes

Kalenius, E.; Neitola, R.; Suman, M.; Dalcanale, E.; Vainiotalo, P., 2010:
Hydrogen bonding in phosphonate cavitands: investigation of host-guest complexes with ammonium salts

Neis, C.; Hegetschweiler, K., 2014:
Hydrogen bonding in polyamino-polyalcohols: a monohydrated cocrystal of 1,3-diamino-5-azaniumyl-1,3,5-trideoxy-cis-inositol iodide and 1,3,5-triamino-1,3,5-trideoxy-cis-inositol

Fumino, K.; Wulf, A.; Ludwig, R., 2009:
Hydrogen bonding in protic ionic liquids: reminiscent of water

Parthasarathi, R.; Subramanian, V.; Sathyamurthy, N., 2007:
Hydrogen bonding in protonated water clusters: an atoms-in-molecules perspective

Balevicius, V.; Aidas, Kęstutis.; Svoboda, I.; Fuess, H., 2012:
Hydrogen bonding in pyridine N-oxide/acid systems: proton transfer and fine details revealed by FTIR, NMR, and X-ray diffraction

Kadono, R.; Shimomura, K.; Satoh, K.H.; Takeshita, S.; Koda, A.; Nishiyama, K.; Akiba, E.; Ayabe, R.M.; Kuba, M.; Jensen, C.M., 2008:
Hydrogen bonding in sodium alanate: a muon spin rotation study

Barbul, I.; Varga, R.A.; Silvestru, C., 2008:
Hydrogen bonding in substitutionally disordered di-μ-hydroxido-bis-{aqua-tri[bromido/chlorido(1/2)]tin(IV)} acetone disolvate

Hanoian, P.; Sigala, P.A.; Herschlag, D.; Hammes-Schiffer, S., 2010:
Hydrogen bonding in the active site of ketosteroid isomerase: electronic inductive effects and hydrogen bond coupling

Smith, G.; Wermuth, U.D., 2010:
Hydrogen bonding in the anhydrous 1:1 proton-transfer compounds of isonipecotamide with nitro-substituted benzoic acids: the salts of the three isomeric mononitrobenzoic acids and of 3,5-dinitrobenzoic acid

Cincić, D.; Kaitner, B., 2008:
Hydrogen bonding in the bromide salts of 4-aminobenzoic acid and 4-aminoacetophenone

Zhao, G-Jiu.; Han, K-Li., 2011:
Hydrogen bonding in the electronic excited state

Aarset, K.; Page, E.M.; Rice, D.A., 2013:
Hydrogen bonding in the gas-phase: the molecular structures of 2-hydroxybenzamide (C7H7NO2) and 2-methoxybenzamide (C8H9NO2), obtained by gas-phase electron diffraction and theoretical calculations

Barnett, I.Li.; Groenzin, H.; Shultz, M.Jane., 2010:
Hydrogen bonding in the hexagonal ice surface

Bisson, P.J.; Shultz, M.Jane., 2014:
Hydrogen bonding in the prism face of ice I(h) via sum frequency vibrational spectroscopy

Rozenberg, M.; Loewenschuss, A.; Nielsen, C.J., 2014:
Hydrogen bonding in the sulfuric acid-methanol-water system: a matrix isolation and computational study

Shaffer, S.A.; Tureček, F., 1995:
Hydrogen bonding in transient bifunctional hypervalent radicals by neutralization-reionization mass spectrometry

Smith, G.; Wermuth, U.D., 2013:
Hydrogen bonding in two ammonium salts of 5-sulfosalicylic acid: ammonium 3-carboxy-4-hydroxybenzenesulfonate monohydrate and triammonium 3-carboxy-4-hydroxybenzenesulfonate 3-carboxylato-4-hydroxybenzenesulfonate

Neela, Y.Indra.; Mahadevi, A.Subha.; Sastry, G.Narahari., 2010:
Hydrogen bonding in water clusters and their ionized counterparts

Costard, R.; Greve, C.; Fidder, H.; Nibbering, E.T.J., 2014:
Hydrogen bonding induced enhancement of Fermi resonances: ultrafast vibrational energy flow dynamics in aniline-d₅

Miao, J.; Zhu, L., 2010:
Hydrogen bonding induced supramolecular self-assembly of linear doubly discotic triad supermolecules

Hu, C.; Noll, B.C.; Schulz, C.E.; Scheidt, W.Robert., 2008:
Hydrogen bonding influence of 1,10-phenanthroline on five-coordinate high-spin imidazole-ligated iron(II) porphyrinates

Agarwalla, H.; Jana, K.; Maity, A.; Kesharwani, M.K.; Ganguly, B.; Das, A., 2014:
Hydrogen bonding interaction between active methylene hydrogen atoms and an anion as a binding motif for anion recognition: experimental studies and theoretical rationalization

Wang, N-Nan.; Zhang, Q-Guo.; Wu, F-Gen.; Li, Q-Zhong.; Yu, Z-Wu., 2010:
Hydrogen bonding interactions between a representative pyridinium-based ionic liquid [BuPy][BF4] and water/dimethyl sulfoxide

Varadwaj, P.Risikrishna., 2010:
Hydrogen bonding interactions in PN...HX complexes: DFT and ab initio studies of structure, properties and topology

Huang, Z.; Dai, Y.; Yu, L.; Wang, H., 2012:
Hydrogen bonding interactions in noradrenaline-DMSO complexes: DFT and QTAIM studies of structure, properties and topology

Wang, N-Nan.; Li, Q-Zhong.; Yu, Z-Wu., 2010:
Hydrogen bonding interactions in three 2-mercaptoethanol systems: an excess infrared spectroscopic study

Das, S.; Joseph, M.T.; Sarkar, D., 2013:
Hydrogen bonding interpolymer complex formation and study of its host-guest interaction with cyclodextrin and its application as an active delivery vehicle

Agarwal, V.; Linser, R.; Dasari, M.; Fink, U.; del Amo, J-Miguel.Lopez.; Reif, B., 2014:
Hydrogen bonding involving side chain exchangeable groups stabilizes amyloid quarternary structure

Wassermann, T.N.; Rice, C.A.; Suhm, M.A.; Luckhaus, D., 2007:
Hydrogen bonding lights up overtones in pyrazoles

Chen, X.; Brauman, J.I., 2008:
Hydrogen bonding lowers intrinsic nucleophilicity of solvated nucleophiles

Ruben, E.A.; Chapman, M.S.; Evanseck, J.D., 2007:
Hydrogen bonding mediated by key orbital interactions determines hydration enthalpy differences of phosphate water clusters

Bae, H.Yong.; Some, S.; Oh, J.Suk.; Lee, Y.Seop.; Song, C.Eui., 2011:
Hydrogen bonding mediated enantioselective organocatalysis in brine: significant rate acceleration and enhanced stereoselectivity in enantioselective Michael addition reactions of 1,3-dicarbonyls to β-nitroolefins

de Visser, Sël.P.; Ogliaro, Fçois.; Sharma, P.K.; Shaik, S., 2009:
Hydrogen bonding modulates the selectivity of enzymatic oxidation by P450: chameleon oxidant behavior by compound I

Yang, Z-Yong.; Tao, Y.; Chen, T.; Yan, H-Juan.; Wang, Z-Xiang., 2013:
Hydrogen bonding network of truxenone on a graphite surface studied with scanning tunneling microscopy and theoretical computation

Judd, E.T.; Stein, N.; Pacheco, A.Andrew.; Elliott, S.J., 2014:
Hydrogen bonding networks tune proton-coupled redox steps during the enzymatic six-electron conversion of nitrite to ammonia

Krimm, S., 1967:
Hydrogen bonding of C - h * * * o = C in proteins

Cho, Y.; Sagle, L.B.; Iimura, S.; Zhang, Y.; Kherb, J.; Chilkoti, A.; Scholtz, J.Martin.; Cremer, P.S., 2010:
Hydrogen bonding of beta-turn structure is stabilized in D(2)O

Gater, D.L.; Réat, Vérie.; Czaplicki, G.; Saurel, O.; Milon, A.; Jolibois, F.; Cherezov, V., 2014:
Hydrogen bonding of cholesterol in the lipidic cubic phase

Wagner, B.D., 2012:
Hydrogen bonding of excited states in supramolecular host-guest inclusion complexes

Pu, L.; Sun, Y.; Zhang, Z., 2009:
Hydrogen bonding of hydrates of double acetic acid molecules

Schnabel, T.; Srivastava, A.; Vrabec, J.; Hasse, H., 2007:
Hydrogen bonding of methanol in supercritical CO2: comparison between 1H NMR spectroscopic data and molecular simulation results

Gast, P.; Herbonnet, R.T.L.; Klare, J.; Nalepa, A.; Rickert, C.; Stellinga, D.; Urban, L.; Möbius, K.; Savitsky, A.; Steinhoff, H-J.; Groenen, E.J.J., 2015:
Hydrogen bonding of nitroxide spin labels in membrane proteins

Stoll, S.; Shafaat, H.S.; Krzystek, J.; Ozarowski, A.; Tauber, M.J.; Kim, J.E.; Britt, R.David., 2012:
Hydrogen bonding of tryptophan radicals revealed by EPR at 700 GHz

Arai, H.; Horikawa, Y.; Sadakane, K.; Tokushima, T.; Harada, Y.; Senba, Y.; Ohashi, H.; Takata, Y.; Shin, S., 2012:
Hydrogen bonding of water in 3-methylpyridine studied by O 1s X-ray emission and absorption spectroscopy

Gahlon, H.L.; Sturla, S.J., 2014:
Hydrogen bonding or stacking interactions in differentiating duplex stability in oligonucleotides containing synthetic nucleoside probes for alkylated DNA

Zhao, H.; Huang, D., 2011:
Hydrogen bonding penalty upon ligand binding

Kontogianni, V.G.; Charisiadis, P.; Primikyri, A.; Pappas, C.G.; Exarchou, V.; Tzakos, A.G.; Gerothanassis, I.P., 2013:
Hydrogen bonding probes of phenol -OH groups

Holthauzen, L.Marcelo.F.; Rösgen, Jörg.; Bolen, D.Wayne., 2010:
Hydrogen bonding progressively strengthens upon transfer of the protein urea-denatured state to water and protecting osmolytes

Cabot, R.; Hunter, C.A.; Varley, L.M., 2010:
Hydrogen bonding properties of non-polar solvents

Lu, Y.; Lan, Z.; Thiel, W., 2011:
Hydrogen bonding regulates the monomeric nonradiative decay of adenine in DNA strands

Maeda, H.; Hasegawa, M.; Ueda, A., 2007:
Hydrogen bonding self-assemblies with 1-D linear, dimeric and hexagonal nanostructures of meso-pyridyl-substituted dipyrromethanes

Costa, P.; Sander, W., 2014:
Hydrogen bonding switches the spin state of diphenylcarbene from triplet to singlet

Olesen, S.Gaarn.; Hammerum, S., 2009:
Hydrogen bonding to alkanes: computational evidence

Dub, P.A.; Filippov, O.A.; Belkova, N.V.; Daran, J-Claude.; Epstein, L.M.; Poli, R.; Shubina, E.S., 2010:
Hydrogen bonding to carbonyl hydride complex Cp*Mo(PMe(3))(2)(CO)H and its role in proton transfer

Howard, D.L.; Kjaergaard, H.G., 2008:
Hydrogen bonding to divalent sulfur

Maity, S.; Patwari, G.Naresh., 2010:
Hydrogen bonding to multifunctional molecules: spectroscopic and ab initio investigation of 4-ethynylbenzonitrile-(water)(1-3) complexes

Maity, S.; Patwari, G.Naresh., 2009:
Hydrogen bonding to multifunctional molecules: spectroscopic and ab initio investigation of water complexes of fluorophenylacetylenes

Tremey, E.; Bonnot, F.; Moreau, Y.; Berthomieu, C.; Desbois, A.; Favaudon, V.; Blondin, Gève.; Houée-Levin, C.; Nivière, V., 2014:
Hydrogen bonding to the cysteine ligand of superoxide reductase: acid-base control of the reaction intermediates

Yang, Y.; Liu, L.; Chen, J.; Han, K., 2014:
Hydrogen bonding tunes the early stage of hydrogen-atom abstracting reaction

Reed, C.A.; Stoyanov, E.S.; Tham, F.S., 2014:
Hydrogen bonding versus hyperconjugation in condensed-phase carbocations

Mali, K.S.; Lava, K.; Binnemans, K.; De Feyter, S., 2011:
Hydrogen bonding versus van der Waals interactions: competitive influence of noncovalent interactions on 2D self-assembly at the liquid-solid interface

Gavette, J.V.; Sargent, A.L.; Allen, W.E., 2008:
Hydrogen bonding vs steric gearing in a hexasubstituted benzene

Petrik, N.G.; Kimmel, G.A., 2008:
Hydrogen bonding, H-D exchange, and molecular mobility in thin water films on TiO2(110)

Kenny, P.W., 2009:
Hydrogen bonding, electrostatic potential, and molecular design

Shahi, A.; Arunan, E., 2015:
Hydrogen bonding, halogen bonding and lithium bonding: an atoms in molecules and natural bond orbital perspective towards conservation of total bond order, inter- and intra-molecular bonding

Song, G.; Li, Y.; Chen, S.; Li, X., 2008:
Hydrogen bonding-assisted tautomerization of pyridine moieties in the coordination sphere of an Ir(I) complex

Zhang, L.; Chen, T.; Ban, H.; Liu, L., 2015:
Hydrogen bonding-assisted thermal conduction in β-sheet crystals of spider silk protein

Lin, J-Bin.; Xu, X-Na.; Jiang, X-Kui.; Li, Z-Ting., 2008:
Hydrogen bonding-directed multicomponent dynamic covalent assembly of mono- and bimacrocycles. Self-sorting and macrocycle exchange

Wang, L.; Wang, G-Tao.; Zhao, X.; Jiang, X-Kui.; Li, Z-Ting., 2011:
Hydrogen bonding-directed quantitative self-assembly of cyclotriveratrylene capsules and their encapsulation of C60 and C70

Tan, Y.; Song, Y.; Zheng, Q., 2012:
Hydrogen bonding-driven rheological modulation of chemically reduced graphene oxide/poly(vinyl alcohol) suspensions and its application in electrospinning

Kim, S.Ho.; Tan, J.P.K.; Nederberg, F.; Fukushima, K.; Colson, J.; Yang, C.; Nelson, A.; Yang, Y-Yan.; Hedrick, J.L., 2010:
Hydrogen bonding-enhanced micelle assemblies for drug delivery

Park, J-Ho.; Ganbold, E.Ochir.; Uuriintuya, D.; Lee, K.; Joo, S-Woo., 2010:
Hydrogen bonding-induced color recovery of gold nanoparticles upon conjugation of amino acids

Wu, L.; Huang, C.; Woo, J-Je.; Wu, D.; Yun, S-Hyun.; Seo, S-Jun.; Xu, T.; Moon, S-Hyeon., 2009:
Hydrogen bonding: a channel for protons to transfer through acid-base pairs

Murli, C.; Lu, N.; Dong, Z.; Song, Y., 2013:
Hydrogen bonds and conformations in ethylene glycol under pressure

Miño, G.; Barriga, R.; Gutierrez, G., 2015:
Hydrogen bonds and heat diffusion in α-helices: a computational study

Vyalikh, A.; Zesewitz, K.; Scheler, U., 2011:
Hydrogen bonds and local symmetry in the crystal structure of gibbsite

Yu, T.; Zhang, L.; Shen, J.; Fu, Y.; Fu, Y., 2014:
Hydrogen bonds and steric effects induced structural modulation of three layered iodoplumbate hybrids from nonperovskite to perovskite structure

Santra, B.; Klimeš, Jří.; Alfè, D.; Tkatchenko, A.; Slater, B.; Michaelides, A.; Car, R.; Scheffler, M., 2012:
Hydrogen bonds and van der waals forces in ice at ambient and high pressures

Larsen, P.L.; Parolin, T.J.; Powell, D.R.; Hendrich, M.P.; Borovik, A.S., 2009:
Hydrogen bonds around M(mu-O)2M rhombs: stabilizing a {CoIII(mu-O)2CoIII} complex at room temperature

Pless, S.A.; Galpin, J.D.; Niciforovic, A.P.; Kurata, H.T.; Ahern, C.A., 2013:
Hydrogen bonds as molecular timers for slow inactivation in voltage-gated potassium channels

Burkhardt, A.; Spielberg, E.T.; Simon, S.; Görls, H.; Buchholz, A.; Plass, W., 2009:
Hydrogen bonds as structural directive towards unusual polynuclear complexes: synthesis, structure, and magnetic properties of copper(II) and nickel(II) complexes with a 2-aminoglucose ligand

Martin, E.; Samoilova, R.I.; Narasimhulu, K.V.; Wraight, C.A.; Dikanov, S.A., 2010:
Hydrogen bonds between nitrogen donors and the semiquinone in the Q(B) site of bacterial reaction centers

Nelyubina, Y.V.; Antipin, M.Yu.; Lyssenko, K.A., 2009:
Hydrogen bonds between zwitterions: intermediate between classical and charge-assisted ones. A case study

Oliveira, B.G.; Araújo, R.C.M.U.; Carvalho, Aônio.B.; Ramos, M.N., 2012:
Hydrogen bonds determine the structures of the ternary heterocyclic complexes C₂H₄O···2HF, C₂H₅N···2HF and C₂H₄S···2HF: density functional theory and topological calculations

Buckel, W.; Friedrich, P.; Golding, B.T., 2013:
Hydrogen bonds guide the short-lived 5'-deoxyadenosyl radical to the place of action

Chiarparin, E.; Rüdisser, S.; Bodenhausen, G., 2014:
Hydrogen bonds in RNA base pairs investigated by cross-correlated relaxation of multiple-quantum coherence in NMR

Seliger, J.; Žagar, V., 2014:
Hydrogen bonds in cocrystals and salts of 2-amino-4,6-dimethylpyrimidine and carboxylic acids studied by nuclear quadrupole resonance

Remsing, R.C.; Wildin, J.L.; Rapp, A.L.; Moyna, G., 2007:
Hydrogen bonds in ionic liquids revisited: (35/37)Cl NMR studies of deuterium isotope effects in 1-n-butyl-3-methylimidazolium chloride

Winter, B.; Aziz, E.F.; Hergenhahn, U.; Faubel, M.; Hertel, I.V., 2007:
Hydrogen bonds in liquid water studied by photoelectron spectroscopy

Sheu, S-Yi.; Schlag, E.W.; Selzle, H.L.; Yang, D-Yen., 2009:
Hydrogen bonds in membrane proteins

Miran, M.Shah.; Kinoshita, H.; Yasuda, T.; Susan, M.Abu.Bin.Hasan.; Watanabe, M., 2011:
Hydrogen bonds in protic ionic liquids and their correlation with physicochemical properties

Cao, G-Jin.; Xu, H-Guang.; Li, R-Zhong.; Zheng, W., 2012:
Hydrogen bonds in the nucleobase-gold complexes: photoelectron spectroscopy and density functional calculations

Chatake, T.; Higuchi, Y.; Mizuno, N.; Tanaka, I.; Niimura, N.; Morimoto, Y., 2008:
Hydrogen bonds of DsrD protein revealed by neutron crystallography

Grabowski, Sławomir.Janusz., 2007:
Hydrogen bonds with pi and sigma electrons as the multicenter proton acceptors: high level ab initio calculations

Dong, K.; Zhang, S., 2012:
Hydrogen bonds: a structural insight into ionic liquids

Di Stefano, M.; Mengoli, C.; Bergonzi, M.; Pagani, E.; Corazza, G.R., 2015:
Hydrogen breath test and intestinal gas production

Argnani, F.; Di Camillo, M.; Marinaro, V.; Foglietta, T.; Avallone, V.; Cannella, C.; Vernia, P., 2008:
Hydrogen breath test for the diagnosis of lactose intolerance, is the routine sugar load the best one?

Di Stefano, M.; Mengoli, C.; Bergonzi, M.; Miceli, E.; Pagani, E.; Corazza, G.R., 2015:
Hydrogen breath test in patients with severe constipation: the interference of the mixing of intestinal content

Avallone, E.V.; De Carolis, A.; Loizos, P.; Corrado, C.; Vernia, P., 2010:
Hydrogen breath test--diet and basal H2 excretion: a technical note

Lindberg, D.A., 2009:
Hydrogen breath testing in adults: what is it and why is it performed?

Rana, S.Vati.; Malik, A., 2014:
Hydrogen breath tests in gastrointestinal diseases

Bus, E.; van Bokhoven, J.A., 2007:
Hydrogen chemisorption on supported platinum, gold, and platinum-gold-alloy catalysts

Kuyanov-Prozument, K.; Vilesov, A.F., 2008 :
Hydrogen clusters that remain fluid at low temperature

Suarez, J.; Huarte-Larrañaga, F., 2012:
Hydrogen confined in single-wall carbon nanotubes: anisotropy effects on ro-vibrational quantum levels