Journal ArticleDOI
Kinetic mechanism of methanol decomposition on Ni(111) surface: a theoretical study.
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TLDR
The adsorption energies of possible species and the activation energy barriers of the possible elementary reactions involved are obtained and it is confirmed that the C-O and C-H bond-breaking paths, which lead to the formation of surface methyl and hydroxyl and Hydroxymethyl and atom hydrogen, respectively, have higher energy barriers.Abstract:
The decomposition of methanol on the Ni(111) surface has been studied with the pseudopotential method of density functional theory−generalized gradient approximation (DFT−GGA) and with the repeated slab models. The adsorption energies of possible species and the activation energy barriers of the possible elementary reactions involved are obtained in the present work. The major reaction path on Ni surfaces involves the O−H bond breaking in CH3OH and the further decomposition of the resulting methoxy species to CO and H via stepwise hydrogen abstractions from CH3O. The abstraction of hydrogen from methoxy itself is the rate-limiting step. We also confirm that the C−O and C−H bond-breaking paths, which lead to the formation of surface methyl and hydroxyl and hydroxymethyl and atom hydrogen, respectively, have higher energy barriers. Therefore, the final products are the adsorbed CO and H atom.read more
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Electrochemical dissolution of surface alloys in acids: Thermodynamic trends from first-principles calculations
TL;DR: In this article, a simple procedure is introduced to use periodic density functional theory calculations to estimate trends in the thermodynamics of surface alloy dissolution in acidic media, and the dissolution potentials for solute metal atoms embedded in the surface layer of various host metals are calculated.
Journal ArticleDOI
Kinetic aspect of CO2 reforming of CH4 on Ni(111): A density functional theory calculation
Sheng-Guang Wang,Xiao-Yuan Liao,Jia Hu,Dong-Bo Cao,Yong-Wang Li,Jianguo Wang,Haijun Jiao,Haijun Jiao +7 more
TL;DR: In this paper, the authors investigated the reaction pathways of CO 2 reforming of CH 4 on Ni(1.1/1) by using density functional theory calculation, and a new and simplified mechanism was proposed on the basis of computed energy barriers.
Journal ArticleDOI
Solvent effect in the liquid-phase hydrogenation of acetophenone over Ni/SiO2: A comprehensive study of the phenomenon
TL;DR: In this paper, the solvent effect on catalyst activity and selectivity for the liquid-phase hydrogenation of acetophenone (AP) to 1-phenylethanol was thoroughly investigated over Ni/SiO2.
Journal ArticleDOI
A comprehensive review of hydrogen production from methanol thermochemical conversion for sustainability
Gabriel Garcia,Gabriel Garcia,Emmanuel Arriola,Emmanuel Arriola,Wei Hsin Chen,Wei Hsin Chen,Wei Hsin Chen,Mark Daniel G. de Luna +7 more
TL;DR: A comprehensive review of hydrogen production from methanol is presented in this paper, which is conducive to the prospective development of a hydrogen-methanol economy, including catalysts, catalysts with spinel structures, and catalysts that have high selectivity towards H2 and CO2.
Journal ArticleDOI
CO2 reforming of CH4 on Ni(111): a density functional theory calculation.
TL;DR: It is found that surface carbon formation by the Bouduard back reaction is more favored than by CH(4) sequential dehydrogenation, which can explain the enhanced selectivity toward the formation of CO and H(2) on Ni catalysts.
References
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