Elucidating the structure-dependent selectivity of CuZn towards methane and ethanol in CO2 electroreduction using tailored Cu/ZnO precatalysts
Seyedeh Behnaz Varandili,Dragos Stoian,Jan Vavra,Kevin Rossi,James R. Pankhurst,Yannick T. Guntern,Núria López,Raffaella Buonsanti +7 more
TLDR
In this article, the authors leverage tailored Cu/ZnO precatalysts as a material platform to identify the intrinsic features of methane-producing and ethanol-producing CuZn catalysts in the electrochemical CO2 reduction reaction.Abstract:
Understanding the catalyst compositional and structural features that control selectivity is of uttermost importance to target desired products in chemical reactions. In this joint experimental–computational work, we leverage tailored Cu/ZnO precatalysts as a material platform to identify the intrinsic features of methane-producing and ethanol-producing CuZn catalysts in the electrochemical CO2 reduction reaction (CO2RR). Specifically, we find that Cu@ZnO nanocrystals, where a central Cu domain is decorated with ZnO domains, and ZnO@Cu nanocrystals, where a central ZnO domain is decorated with Cu domains, evolve into Cu@CuZn core@shell catalysts that are selective for methane (∼52%) and ethanol (∼39%), respectively. Operando X-ray absorption spectroscopy and various microscopy methods evidence that a higher degree of surface alloying along with a higher concentration of metallic Zn improve the ethanol selectivity. Density functional theory explains that the combination of electronic and tandem effects accounts for such selectivity. These findings mark a step ahead towards understanding structure–property relationships in bimetallic catalysts for the CO2RR and their rational tuning to increase selectivity towards target products, especially alcohols.read more
Citations
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Modeling Operando Electrochemical CO2 Reduction.
TL;DR: In this article , the potential of density functional theory and machine learning to interpret data from Operando spectroelectrochemical techniques, such as Raman spectroscopy and extended X-ray absorption fine structure characterization, is discussed.
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Well-Defined Copper-Based Nanocatalysts for Selective Electrochemical Reduction of CO2 to C2 Products
TL;DR: In this article , the shape and size selectivity dependence of single metal copper nanocrystals is briefly reviewed and linked to single-crystal studies, and a vision on design strategies in terms of shape and composition for the next generation of CO2RR nanocatalysts is proposed.
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Bimetallic Cu–Zn Catalysts for Electrochemical CO2 Reduction: Phase-Separated versus Core–Shell Distribution
TL;DR: In this paper , two types of Cu-Zn bimetallic catalysts with core-shell and phase-separated structure distributions were compared for electrochemical CO2 reduction to reach carbon neutrality.
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Designing Cu-Based Tandem Catalysts for CO2 Electroreduction Based on Mass Transport of CO Intermediate
Bo Cao,Fu-Zhi Li,Jun Gu +2 more
TL;DR: In this article , the authors discuss the challenges and perspectives in understanding the interaction between the CO-formation catalyst and Cu and improve their catalytic performance in the CO2 tandem reduction.
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Morphology and composition dependence of multicomponent Cu-based nanoreactor for tandem electrocatalysis CO2 reduction
TL;DR: In this paper , a cuboctahedron nanoreactor with Cu-N 4 /Cu 2 O/Cu multicomponent active sites was designed and the tandem catalytic process in multi-component active sites contributed to the high electrocatalytic CO 2 reduction reaction selectivity towards deep reduction product with high current density.
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