Journal ArticleDOI
CO2 electroreduction to ethylene via hydroxide-mediated copper catalysis at an abrupt interface
Cao-Thang Dinh,Thomas Burdyny,Golam Kibria,Ali Seifitokaldani,Christine M. Gabardo,F. Pelayo García de Arquer,Amirreza Kiani,Jonathan P. Edwards,Phil De Luna,Oleksandr S. Bushuyev,Chengqin Zou,Chengqin Zou,Rafael Quintero-Bermudez,Yuanjie Pang,David Sinton,Edward H. Sargent +15 more
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TLDR
A copper electrocatalyst at an abrupt reaction interface in an alkaline electrolyte reduces CO2 to ethylene with 70% faradaic efficiency at a potential of −0.55 volts versus a reversible hydrogen electrode (RHE).Abstract:
Carbon dioxide (CO 2 ) electroreduction could provide a useful source of ethylene, but low conversion efficiency, low production rates, and low catalyst stability limit current systems. Here we report that a copper electrocatalyst at an abrupt reaction interface in an alkaline electrolyte reduces CO 2 to ethylene with 70% faradaic efficiency at a potential of −0.55 volts versus a reversible hydrogen electrode (RHE). Hydroxide ions on or near the copper surface lower the CO 2 reduction and carbon monoxide (CO)–CO coupling activation energy barriers; as a result, onset of ethylene evolution at −0.165 volts versus an RHE in 10 molar potassium hydroxide occurs almost simultaneously with CO production. Operational stability was enhanced via the introduction of a polymer-based gas diffusion layer that sandwiches the reaction interface between separate hydrophobic and conductive supports, providing constant ethylene selectivity for an initial 150 operating hours.read more
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Predesign of Catalytically Active Sites via Stable Coordination Cluster Model System for Electroreduction of CO2 to Ethylene.
Ya-Qian Lan,Yun-Feng Lu,Long-Zhang Dong,Jiang Liu,Ru-Xin Yang,Jing-Jing Liu,Yu Zhang,Lei Zhang,Yi-Rong Wang,Shun-Li Li +9 more
TL;DR: In this paper, three trinuclear copper clusters (Cu3 -X, X=Cl-, Br-, NO3- ) have been designed, containing three active Cu sites with the identical coordination environment and appropriate spatial distance, delivering high selectivity for the selective electroreduction of CO2 to C2 H4.
Journal ArticleDOI
Nanostructured Cobalt‐Based Electrocatalysts for CO 2 Reduction: Recent Progress, Challenges, and Perspectives
TL;DR: This review summarizes the rational design of Co-based catalysts for ECO2 RR, including molecular, single-metal-site, and oxide-derived catalysts, along with the nanostructure engineering techniques to highlight the distribution of the ECO2RR products by Co- based catalysts.
Journal ArticleDOI
Paramelaconite-Enriched Copper-Based Material as an Efficient and Robust Catalyst for Electrochemical Carbon Dioxide Reduction
Nemanja Martic,Christian Reller,Chandra Macauley,Mario Löffler,Mario Löffler,Bernhard Schmid,David Reinisch,Elena Volkova,Anna Maltenberger,Andreas Rucki,Karl Johann Jakob Mayrhofer,Karl Johann Jakob Mayrhofer,Günter Schmid +12 more
Journal ArticleDOI
Identification of dual-active sites in cobalt phthalocyanine for electrochemical carbon dioxide reduction
Yujian Xia,Stepan Kashtanov,Pengfei Yu,Lo-Yueh Chang,Kun Feng,Jun Zhong,Jinghua Guo,Xuhui Sun +7 more
TL;DR: In this paper, the authors employed synchrotron-based X-ray photoelectron spectroscopy (XPS) and XAS to elucidate the catalytic active site evolution during the reaction process of CO2 reduction on CoPc.
Journal ArticleDOI
A Comprehensive Approach to Investigate CO2 Reduction Electrocatalysts at High Current Densities
TL;DR: As electrochemical CO2 reduction studies progress from beaker or H-cell devices operating at low current densities to gas diffusion electrode (GDE)-based devices that sustain high reactio...
References
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