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Electrocatalytic Reduction Catalysts: Hollow Mesoporous Carbon Sphere Loaded Ni–N4 Single‐Atom: Support Structure Study for CO2 Electrocatalytic Reduction Catalyst (Small 41/2020)
Small ( IF 13.0 ) Pub Date : 2020-10-15 , DOI: 10.1002/smll.202070225 Wanfeng Xiong 1 , Hongfang Li 1, 2 , Huimin Wang 1, 2 , Jundong Yi 1, 2 , Hanhui You 1, 2 , Suyuan Zhang 1, 2 , Ying Hou 1 , Minna Cao 1, 2 , Teng Zhang 1, 2 , Rong Cao 1, 2
Small ( IF 13.0 ) Pub Date : 2020-10-15 , DOI: 10.1002/smll.202070225 Wanfeng Xiong 1 , Hongfang Li 1, 2 , Huimin Wang 1, 2 , Jundong Yi 1, 2 , Hanhui You 1, 2 , Suyuan Zhang 1, 2 , Ying Hou 1 , Minna Cao 1, 2 , Teng Zhang 1, 2 , Rong Cao 1, 2
Affiliation
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In article number 2003943, Hongfang Li, Rong Cao, and co‐workers successfully synthesize a hollow mesoporous carbon sphere loaded Ni–N4 single‐atom catalyst that exhibits superior catalytic activity toward CO2 electrocatalytic reduction. The geometrical structure of carbon support is verified to affect the CO2 reduction reaction performance greatly. The ultrathin carbon shell and the 7–10 nm mesopores of the hollow mesoporous carbon spheres facilitate the CO2 molecule activation.
中文翻译:
电催化还原催化剂:空心介孔碳球负载的Ni–N4单原子:CO2电催化还原催化剂的载体结构研究(Small 41/2020)
在2003943号文章中,李洪芳,曹荣和他的同事成功地合成了中空碳球负载的Ni–N 4单原子催化剂,该催化剂对CO 2电催化还原具有优异的催化活性。证实碳载体的几何结构极大地影响了CO 2还原反应性能。超薄碳壳和中空介孔碳球的7–10 nm中孔有助于CO 2分子活化。
更新日期:2020-10-16
中文翻译:
电催化还原催化剂:空心介孔碳球负载的Ni–N4单原子:CO2电催化还原催化剂的载体结构研究(Small 41/2020)
在2003943号文章中,李洪芳,曹荣和他的同事成功地合成了中空碳球负载的Ni–N 4单原子催化剂,该催化剂对CO 2电催化还原具有优异的催化活性。证实碳载体的几何结构极大地影响了CO 2还原反应性能。超薄碳壳和中空介孔碳球的7–10 nm中孔有助于CO 2分子活化。
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