Open AccessModeling Electrochemical Reactions at the Solid-liquid Interface Using Density Functional Calculations
Author(s) -
Egill Skúlason
Publication year - 2015
Publication title -
procedia computer science
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.334
H-Index - 76
ISSN - 1877-0509
DOI - 10.1016/j.procs.2015.05.431
Subject(s) - helmholtz free energy , electrolyte , electrochemistry , chemical physics , interface (matter) , double layer (biology) , standard hydrogen electrode , field (mathematics) , computer science , electrode , layer (electronics) , materials science , chemistry , nanotechnology , thermodynamics , physics , working electrode , mathematics , pure mathematics , gibbs isotherm , adsorption
Charged interfaces are physical phenomena found in various natural systems and artificial de- vices within the fields of biology, chemistry and physics. In electrochemistry, this is known as the electrochemical double layer, introduced by Helmholtz over 150 years ago. At this interface, between a solid surface and the electrolyte, chemical reactions can take place in a strong elec- tric field. In this presentation, a new computational method is introduced for creating charged interfaces and to study charge transfer reactions on the basis of periodic DFT calculations. The electrochemical double layer is taken as an example, in particular the hydrogen electrode. With this method the mechanism of forming hydrogen gas is studied. The method is quite general and could be applied to a wide variety of atomic scale transitions at charged interfaces
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