The possible existence of subsurface H-atom adsorbates and H2 electrochemical evolution reaction intermediates on platinum in acid solutions
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[1] U. Stimming,et al. Anion adsorption from sulfuric acid solutions on Pt(111) single crystal electrodes , 1997 .
[2] A. Arvia,et al. A semiempirical quantum chemistry approach to possible structures and energies of hydrogen atoms adsorbed on Pt(100) and Pt(111) clusters at a simulated Pt/aqueous electrochemical interface , 1996 .
[3] A. Zolfaghari,et al. Determination of the Energy of the Metal−Underpotential-Deposited Hydrogen Bond for Rhodium Electrodes , 1996 .
[4] A. Arvia,et al. A comparative study of the early stages of mercury, cadmium, lead, silver and copper electrodeposition on columnar and smooth platinum electrodes , 1996 .
[5] P. Guyot-Sionnest,et al. Vibrational spectroscopy of the electrochemical interface by visible-infrared sum-frequency generation , 1995 .
[6] U. Stimming,et al. An in-situ STM study of anion adsorption on Pt(111) from sulfuric acid solutions , 1995 .
[7] M. Lagos,et al. Subsurface bonding of hydrogen in transition metals: dependence on surface orientation , 1994 .
[8] B. Conway,et al. Absorption and adsorption of H in the H2 evolution reaction and the effects of co-adsorbed poisons , 1994 .
[9] T. Iwasita,et al. Vibrational spectroscopy of adsorbed sulfate on Pt(111) , 1994 .
[10] H. Ogasawara,et al. Hydrogen adsorption on Pt(100), Pt(110), Pt(111) and Pt(1111) electrode surfaces studied by in situ infrared reflection absorption spectroscopy , 1994 .
[11] N. Batina,et al. On the stability of reconstructed Pt(100) in an electrochemical cell : an ex-situ LEED/RHEED and in-situ STM study , 1994 .
[12] B. Conway,et al. Thermodynamic and electrode kinetic factors in cathodic hydrogen sorption into metals and its relationship to hydrogen adsorption and poisoning , 1993 .
[13] Ross,et al. Potential dependent surface relaxation of the Pt(001)/electrolyte interface. , 1993, Physical review letters.
[14] L. Bai. Behaviour of a hydride phase formed in the hydrogen evolution reaction at a rotating Pt electrode: analysis of potential relaxation transients from a kinetic approach , 1993 .
[15] R. Gómez,et al. Electrochemical behaviour of platinum surfaces containing (110) sites and the problem of the third oxidation peak , 1993 .
[16] A. Wiȩckowski,et al. Adsorption of bisulfate anion on a Pt(100) electrode : a comparison with Pt(111) and Pt(poly) , 1993 .
[17] A. M. Baró,et al. Fractal surfaces of gold and platinum electrodeposits. Dimensionality determination by scanning tunneling microscopy , 1992 .
[18] A. Arvia,et al. Surface Rearrangements at the Early Stages of Silver Overlayer Electrodeposition on Columnar Structured Platinum Electrodes , 1991 .
[19] J. B. Adams,et al. EAM study of surface self-diffusion of single adatoms of fcc metals Ni, Cu, Al, Ag, Au, Pd, and Pt , 1991 .
[20] J. Clavilier,et al. Electrochemical monitoring of the thermal reordering of platinum single-crystal surfaces after metallographic polishing from the early stage to the equilibrium surfaces , 1990 .
[21] Van Hove MA,et al. Location of hydrogen adsorbed on palladium (111) studied by low-energy electron diffraction. , 1989, Physical review. B, Condensed matter.
[22] F. Wagner,et al. Generation of surface hydronium from water and hydrogen coadsorbed on Pt(111) , 1988 .
[23] C. Correo,et al. Voltammetric stabilization of electrofaceted (100)-type platinum electrodes in acidic solutions , 1988 .
[24] Klaus Christmann,et al. Interaction of hydrogen with solid surfaces , 1988 .
[25] G. Estiu,et al. Theoretical study of the interaction of a single water molecule with Pt(111) and Pt(100) clusters. Influence of the applied potential , 1988 .
[26] A. Bewick,et al. Spectroscopic identification of the adsorbed intermediate in hydrogen evolution on platinum , 1988 .
[27] R. Adzic,et al. Electrosorption of hydrogen and sulphuric acid anions on single-crystal platinum stepped surfaces: Part I. The [110] zone , 1988 .
[28] A. Visintín,et al. Changes in real surface area, crystallographic orientation and morphology of platinum electrodes caused by periodic potential treatments: phenomenological approach , 1988 .
[29] J. Clavilier,et al. Quantitative analysis of the distribution of the hydrogen adsorption states at platinum surfaces: Part I. Application to Pt(100) in sulphuric acid medium , 1987 .
[30] J. Clavilier,et al. Quantitative analysis of the distribution of the hydrogen adsorption states at platinum surfaces: Part I. Application to Pt(100) in sulphuric acid medium , 1987 .
[31] A. Arvia,et al. A Study of the Optimal Conditions for the Development of Preferred Oriented Platinum Surfaces by Means of Fast Square Wave Potential Perturbations , 1987 .
[32] B. Conway,et al. Kinetic theory of the open-circuit potential decay method for evaluation of behaviour of adsorbed intermediates. Analysis for the case of the H2 evolution reaction , 1987 .
[33] F. Wagner,et al. Identification of surface hydronium: Coadsorption of hydrogen fluoride and water on platinum (111) , 1987 .
[34] J. White,et al. Temperature-programmed desorption study of hydrogen-deuterium exchange on platinum(111) and the role of subsurface sites , 1986 .
[35] B. Conway,et al. State of adsorption and coverage by overpotential-deposited H in the H2 evolution reaction at Au and Pt , 1986 .
[36] F. Anson,et al. A pulse polarographic measurement of the kinetics of dissociation of the [RuIII(edta)]2 dimer , 1986 .
[37] R. Durand,et al. Structural changes of a Pt(111) electrode induced by electrosorption of oxygen in acidic solutions: a coupled voltammetry, LEED and AES study , 1986 .
[38] G. Jacucci,et al. The migration of point defects on bcc surfaces using a metallic pair potential , 1985 .
[39] C. Peden,et al. SUBSURFACE PENETRATION OF CHEMISORBED HYDROGEN ISOTOPES INTO THE Ru(0001) CRYSTAL SURFACE , 1985 .
[40] M. Lagos,et al. Enhancement of hydrogen uptake in metals and subsurface bonding , 1984 .
[41] A. Kuznetsov. Variation of the charge of the adsorbed hydrogen atom in the process of the activation in the elementary act of hydrogen ion discharge , 1983 .
[42] C. N. Reilley,et al. Hydrogen chemisorption and related anion effects on Pt(110) electrodes , 1983 .
[43] S. Louie,et al. Interaction of hydrogen with a Pd(111) surface , 1983 .
[44] A. Arvia,et al. Changes in the electrochemical response of noble metals produced by square-wave potential perturbations , 1983 .
[45] M. Lagos. Subsurface bonding of hydrogen to metallic surfaces , 1982 .
[46] C. N. Reilley,et al. Surface characterization of Pt electrodes using underpotential depositon of H and Cu , 1982 .
[47] R. David,et al. The purely “fast” distribution of H2 and D2 molecules desorbing from Cu(100) and Cu(111) surfaces , 1982 .
[48] J. W. Russell,et al. Structural investigation by infra-red spectroscopy of adsorbed hydrogen on platinum , 1982 .
[49] E. W. Plummer,et al. Bonding of H to Ni, Pd, and Pt Surfaces , 1981 .
[50] J. W. Russell,et al. IR vibrational spectroscopy of species in the electrode-electrolyte solution interphase , 1981 .
[51] P. Ross,et al. HYDROGEN CHEMISORPTION ON Pt SINGLE CRYSTAL SURFACES IN ACIDIC SOLUTIONS , 1981 .
[52] Gabor A. Somorjai,et al. Chemistry in Two Dimensions: Surfaces , 1981 .
[53] A. Baró,et al. Vibrational modes of hydrogen adsorbed on Pt(111): Adsorption site and excitation mechanism , 1979 .
[54] R. Kötz,et al. Copper monolayer formation on platinum single crystal surfaces: Optical and electrochemical studies , 1979 .
[55] F. A. Kröger,et al. The Defect Structure of Pure and Doped ZnSe , 1978 .
[56] M. Breiter. Dissolution and adsorption of hydrogen at smooth Pd wires at potentials of the alpha phase. Influence of electrolyte , 1978 .
[57] W. O'grady,et al. Hydrogen Adsorption on Single Crystal Platinum , 1978 .
[58] H. Schneider,et al. Estimation of the Gibbs energy of transfer of zinc(II) in mixtures of water and acetone by means of different reference redox systems , 1978 .
[59] A. Hubbard,et al. Study of platinum electrodes by means of electrochemistry and low-energy electron diffraction: Part II. Comparison of the electrochemical activity of Pt(100) and Pt(111) surfaces , 1978 .
[60] B. Conway,et al. Overpotential decay behavior—II. Generalized treatment for reaction pathways involving discharge, recombination and electrochemical desorption of adsorbed intermediates , 1977 .
[61] G. Ertl,et al. Interaction of hydrogen with Pt(111): The role of atomic steps , 1976 .
[62] B. Conway,et al. Overpotential decay behavior—I. Complex electrode reactions involving adsorption , 1976 .
[63] G. Ertl,et al. Adsorption of hydrogen on a Pt(111) surface , 1976 .
[64] A. Kuznetsov,et al. Theory of charge transfer kinetics at solid-polar liquid interfaces , 1975 .
[65] P. Stonehart,et al. The Commonality of Surface Processes in Electrocatalysis and Gas-Phase Heterogeneous Catalysis , 1975 .
[66] A. Bewick,et al. Studies of adsorbed hydrogen on platinum cathodes using modulated specular reflectance spectroscopy , 1973 .
[67] B. Conway,et al. Kinetic Theory of Adsorption of Intermediates in Electrochemical Catalysis , 1963 .
[68] R. Parsons. The rate of electrolytic hydrogen evolution and the heat of adsorption of hydrogen , 1958 .
[69] B. Conway,et al. Electrolytic Hydrogen Evolution Kinetics and Its Relation to the Electronic and Adsorptive Properties of the Metal , 1957 .
[70] H. Gerischer. Über den Zusammenhang zwischen dem Mechanismus der elektrolytischen Wasserstoffabscheidung und der Adsorptionsenergie des atomaren Wasserstoffs an verschiedenen Metallen , 1956 .
[71] R. Parsons,et al. Calculation of the energy of activation of discharge of hydrogen ions at metal electrodes , 1951 .