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开放和紧密堆积金属表面电化学 CO2 还原活性的趋势。

Trends in electrochemical CO2 reduction activity for open and close-packed metal surfaces.

机构信息

SUNCAT Center for Interface Science and Catalysis, Department of Chemical Engineering, Stanford University, Stanford, CA 94305, USA.

出版信息

Phys Chem Chem Phys. 2014 Mar 14;16(10):4720-7. doi: 10.1039/c3cp54822h.

Abstract

We present a theoretical analysis of trends in overpotentials for electrocatalytic CO2 reduction based on density functional theory calculations. The analysis is based on understanding variations in the free energy of intermediates and mapping out the potential at which different elementary steps are exergonic as a measure of the catalytic activity. We study different surface structures and introduce a simple model for including the effect of adsorbate-adsorbate interactions. We find that high coverages of CO under typical reaction conditions for the more reactive transition metals affect the catalytic activity towards the CO2 reduction reaction, but the ordering of metal activities is not changed. For the hydrogen evolution reaction, a high CO coverage shifts the maximum activity towards more reactive metals than Pt.

摘要

我们基于密度泛函理论计算,对电催化 CO2 还原过电势的趋势进行了理论分析。该分析基于理解中间体自由能的变化,并绘制出不同基本步骤作为催化活性度量的放热的电势图。我们研究了不同的表面结构,并引入了一个简单的模型来包含吸附物-吸附物相互作用的影响。我们发现,在更活跃的过渡金属的典型反应条件下,高覆盖率的 CO 会影响 CO2 还原反应的催化活性,但金属活性的顺序并没有改变。对于析氢反应,高 CO 覆盖率将最大活性向比 Pt 更活跃的金属转移。

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