Constant-Charge Reaction Theory for Potential-Dependent Reaction Kinetics at the Solid–Liquid Interface
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- 作者:Ya-Hui Fang ; Guang-Feng Wei ; Zhi-Pan Liu
- 刊名:Journal of Physical Chemistry C
- 出版年:2014
- 出版时间:February 20, 2014
- 年:2014
- 卷:118
- 期:7
- 页码:3629-3635
- 全文大小:299K
- ISSN:1932-7455
文摘
To understand the potential-dependent kinetics of reactions at the solid鈥搇iquid interface, we derive a constant-charge reaction theory for understanding the coupled charge transfer during the chemical bond making/breaking. The charge transfer coefficient (CTC) for reactions at the solid鈥搇iquid interface is shown to be linearly proportional to the electrochemical potential change from the initial state to the transition state as well the interface differential capacitance at the constant-charge model, and can be further related to the net dipole change normal to the surface during the reaction. Using the constant-charge theory, the CTC can be explicitly calculated on the basis of the first principles calculations without the need to assume the redox behavior of the elementary reactions and thus provide a unique possibility to evaluate and compare the magnitude of CTC for different reactions across different surfaces. By examining a series of interface reactions and comparing the calculated CTC values, we propose simple rules to understand and predict the charge transfer coefficient of three classes of the interface elementary reactions. The role of surface dipole, solvation, and molecular adsorption strength on the CTC can now be clarified from first principles calculations.