铜
面(心理学)
还原(数学)
选择性
电化学
催化作用
材料科学
化学
电极
冶金
心理学
数学
物理化学
有机化学
社会心理学
几何学
人格
五大性格特征
作者
Viswanath Pasumarthi,Michal Bajdich,Frank Abild‐Pedersen
标识
DOI:10.1021/acs.jpcc.4c07279
摘要
The electrochemical reduction of CO on copper catalysts has garnered significant attention for its potential in synthesizing valuable chemicals like formic acid and ethylene. However, high selectivity and efficiency remain challenging due to the complex interplay of various reaction pathways and surface morphology. This study employs potential-dependent density functional theory and microkinetic modeling to investigate the facet-dependent catalytic selectivity of the CO reduction (COR) on copper. We analyzed metal active sites across facets (100), (111), (211), (310), and (511), computing the energetics of COR adsorbates at the standard hydrogen electrode scale. Initial assessments examined the effects of applied voltage and the electrical double layer on adsorption energetics followed by evaluations of selectivity toward C1+ and C2+ products at varying potentials. Our results indicate that while facet (111) is highly active, favoring C1 products, facets (100), (310), and (511) demonstrate enhanced selectivity toward C2+ products. Conversely, facet (211) shows notable activity but lacks selectivity toward C2+ products, underscoring the diverse catalytic behaviors across different facet types. Comparisons with experimental data confirm that our findings accurately represent the unique properties of each facet. This research highlights the critical role of copper surface morphology in influencing the microkinetics and product selectivity in CO reduction, paving the way for advanced catalyst design.
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