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CO2 Reduction: Oxygen Doping Induced by Nitrogen Vacancies in Nb4N5 Enables Highly Selective CO2 Reduction (Small 2/2020)
Small ( IF 13.0 ) Pub Date : 2020-01-16 , DOI: 10.1002/smll.202070007 Jiantao Fu 1 , Haihong Bao 1 , Yifan Liu 2 , Yuying Mi 1 , Yuan Qiu 1 , Longchao Zhuo 3 , Xijun Liu 1 , Jun Luo 1
Small ( IF 13.0 ) Pub Date : 2020-01-16 , DOI: 10.1002/smll.202070007 Jiantao Fu 1 , Haihong Bao 1 , Yifan Liu 2 , Yuying Mi 1 , Yuan Qiu 1 , Longchao Zhuo 3 , Xijun Liu 1 , Jun Luo 1
Affiliation
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In article number 1905825, Yuan Qiu, Xijun Liu, and co‐workers design a simple yet novel strategy to develop oxygen‐doped Nb4N5 by introducing nitrogen‐vacancy. The catalyst exhibits efficient performance for selective conversion of CO2 to CO and simultaneous excellent durability. The work provides a new perspective for an in‐depth understanding toward the structure–activity relationship between defects and electrocatalysis.
中文翻译:
减少二氧化碳排放:Nb4N5中氮空位引起的氧掺杂可实现高度选择性的二氧化碳减少(2/2020年小)
在第1905825号文章中,仇秋,刘锡军及其同事设计了一种简单而新颖的策略,通过引入氮空位来开发掺氧的Nb 4 N 5。该催化剂表现出有效的性能,可选择性地将CO 2转化为CO,同时具有出色的耐久性。这项工作为深入了解缺陷与电催化之间的结构-活性关系提供了新的视角。
更新日期:2020-01-16
中文翻译:
减少二氧化碳排放:Nb4N5中氮空位引起的氧掺杂可实现高度选择性的二氧化碳减少(2/2020年小)
在第1905825号文章中,仇秋,刘锡军及其同事设计了一种简单而新颖的策略,通过引入氮空位来开发掺氧的Nb 4 N 5。该催化剂表现出有效的性能,可选择性地将CO 2转化为CO,同时具有出色的耐久性。这项工作为深入了解缺陷与电催化之间的结构-活性关系提供了新的视角。
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