Binding Site Diversity Promotes CO Electroreduction to Ethanol

Overview

Journal J Am Chem Soc

Publisher American Chemical Society

Specialty Chemistry

Date 2019 May 10

PMID 31067857

Citations 50

Authors

Yuguang C Li

Ziyun Wang

Tiange Yuan

Dae-Hyun Nam

Mingchuan Luo

Joshua Wicks

Bin Chen

Jun Li

Fengwang Li

F Pelayo Garcia de Arquer

Ying Wang

Cao-Thang Dinh

Oleksandr Voznyy

David Sinton

Edward H Sargent

Affiliations

Soon will be listed here.

Abstract

The electrochemical reduction of CO has seen many record-setting advances in C productivity in recent years. However, the selectivity for ethanol, a globally significant commodity chemical, is still low compared to the selectivity for products such as ethylene. Here we introduce diverse binding sites to a Cu catalyst, an approach that destabilizes the ethylene reaction intermediates and thereby promotes ethanol production. We develop a bimetallic Ag/Cu catalyst that implements the proposed design toward an improved ethanol catalyst. It achieves a record Faradaic efficiency of 41% toward ethanol at 250 mA/cm and -0.67 V vs RHE, leading to a cathodic-side (half-cell) energy efficiency of 24.7%. The new catalysts exhibit an in situ Raman spectrum, in the region associated with CO stretching, that is much broader than that of pure Cu controls, a finding we account for via the diversity of binding configurations. This physical picture, involving multisite binding, accounts for the enhanced ethanol production for bimetallic catalysts, and presents a framework to design multimetallic catalysts to control reaction paths in CO reductions toward desired products.

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