在气体扩散电极半电池装置中测试用于选择性二氧化碳还原的银纳米线催化剂，该装置可实现高传质条件。

Testing a Silver Nanowire Catalyst for the Selective CO₂ Reduction in a Gas Diffusion Electrode Half-cell Setup Enabling High Mass Transport Conditions.

作者信息

Gálvez-Vázquez María de Jesús, Alinejad Shima, Hu Huifang, Hou Yuhui, Moreno-García Pavel, Zana Alessandro, Wiberg Gustav K H, Broekmann Peter, Arenz Matthias

机构信息

Department of Chemistry and Biochemistry, University of Bern, Freiestrasse 3, Bern CH-3012.

Department of Physical Science, Harold Washington College, City colleges of Chicago, 30 E Lake St, Chicago, IL 60601 USA.

出版信息

Chimia (Aarau). 2019 Nov 1;73(11):922-927. doi: 10.2533/chimia.2019.922.

DOI:10.2533/chimia.2019.922

PMID:31753073

Abstract

In this work, we discuss the application of a gas diffusion electrode (GDE) setup for benchmarking electrocatalysts for the reductive conversion of CO₂ (CO₂ RR: CO₂ reduction reaction). Applying a silver nanowire (Ag-NW) based catalyst, it is demonstrated that in the GDE setup conditions can be reached, which are relevant for the industrial conversion of CO₂ to CO. This reaction is part of the so-called 'Rheticus' process that uses the CO for the subsequent production of butanol and hexanol based on a fermentation approach. In contrast to conventional half-cell measurements using a liquid electrolyte, in the GDE setup CO₂ RR current densities comparable to technical cells (>100 mA cm) are reached without suffering from mass transport limitations of the CO₂ reactant gas. The results are of particular importance for designing CO₂ RR catalysts exhibiting high faradaic efficiencies towards CO at technological reaction rates.

摘要

在这项工作中，我们讨论了气体扩散电极（GDE）装置在基准测试用于二氧化碳还原转化（CO₂RR：二氧化碳还原反应）的电催化剂方面的应用。应用基于银纳米线（Ag-NW）的催化剂，结果表明在GDE装置中可以达到与二氧化碳工业转化为一氧化碳相关的条件。该反应是所谓“雷蒂库斯”工艺的一部分，该工艺利用一氧化碳通过发酵方法后续生产丁醇和己醇。与使用液体电解质的传统半电池测量不同，在GDE装置中可以达到与工业电池相当的CO₂RR电流密度（>100 mA cm），而不会受到二氧化碳反应气体传质限制的影响。这些结果对于设计在技术反应速率下对一氧化碳具有高法拉第效率的CO₂RR催化剂尤为重要。

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在气体扩散电极半电池装置中测试用于选择性二氧化碳还原的银纳米线催化剂，该装置可实现高传质条件。

Testing a Silver Nanowire Catalyst for the Selective CO₂ Reduction in a Gas Diffusion Electrode Half-cell Setup Enabling High Mass Transport Conditions.

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