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Nano-crumples induced Sn-Bi bimetallic interface pattern with moderate electron bank for highly efficient CO 2 electroreduction
Nano-crumples induced Sn-Bi bimetallic interface pattern with moderate electron bank for highly efficient CO 2 electroreduction
by Luo, Dan , Ren, Bohua , Ma, Qianyi , Wang, Xin , Zhang, Zhen , Gao, Rui , Ricardez-Sandoval, Luis , Chen, Zhongwei , Wen, Guobin , Yu, Aiping , Qiu, Weibin , Cui, Yi
2022
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Nano-crumples induced Sn-Bi bimetallic interface pattern with moderate electron bank for highly efficient CO 2 electroreduction
by Luo, Dan , Ren, Bohua , Ma, Qianyi , Wang, Xin , Zhang, Zhen , Gao, Rui , Ricardez-Sandoval, Luis , Chen, Zhongwei , Wen, Guobin , Yu, Aiping , Qiu, Weibin , Cui, Yi
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2022
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Nano-crumples induced Sn-Bi bimetallic interface pattern with moderate electron bank for highly efficient CO 2 electroreduction
Nano-crumples induced Sn-Bi bimetallic interface pattern with moderate electron bank for highly efficient CO 2 electroreduction
by Luo, Dan , Ren, Bohua , Ma, Qianyi , Wang, Xin , Zhang, Zhen , Gao, Rui , Ricardez-Sandoval, Luis , Chen, Zhongwei , Wen, Guobin , Yu, Aiping , Qiu, Weibin , Cui, Yi
2022

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Nano-crumples induced Sn-Bi bimetallic interface pattern with moderate electron bank for highly efficient CO 2 electroreduction
Nano-crumples induced Sn-Bi bimetallic interface pattern with moderate electron bank for highly efficient CO 2 electroreduction
Journal Article

Nano-crumples induced Sn-Bi bimetallic interface pattern with moderate electron bank for highly efficient CO 2 electroreduction

Luo, Dan,
Ren, Bohua,
Ma, Qianyi,
Wang, Xin,
Zhang, Zhen,
Gao, Rui,
Ricardez-Sandoval, Luis,
Chen, Zhongwei,
Wen, Guobin,
Yu, Aiping,
Qiu, Weibin,
Cui, Yi
2022
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Overview
CO electroreduction reaction offers an attractive approach to global carbon neutrality. Industrial CO electrolysis towards formate requires stepped-up current densities, which is limited by the difficulty of precisely reconciling the competing intermediates (COOH* and HCOO*). Herein, nano-crumples induced Sn-Bi bimetallic interface-rich materials are in situ designed by tailored electrodeposition under CO electrolysis conditions, significantly expediting formate production. Compared with Sn-Bi bulk alloy and pure Sn, this Sn-Bi interface pattern delivers optimum upshift of Sn p-band center, accordingly the moderate valence electron depletion, which leads to weakened Sn-C hybridization of competing COOH* and suitable Sn-O hybridization of HCOO*. Superior partial current density up to 140 mA/cm for formate is achieved. High Faradaic efficiency (>90%) is maintained at a wide potential window with a durability of 160 h. In this work, we elevate the interface design of highly active and stable materials for efficient CO electroreduction.
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