催化作用
镍
金属有机骨架
甲醇
阳极
电解
电催化剂
化学工程
化学
无机化学
材料科学
电化学
冶金
有机化学
物理化学
电解质
电极
吸附
工程类
作者
Yansong Zhou,Ziwei Wang,Wensheng Fang,Ruijuan Qi,Zhitong Wang,Chenfeng Xia,Kai Lei,Bo You,Xuan Yang,Youwen Liu,Wei Guo,Yaqiong Su,Shujiang Ding,Bao Yu Xia
标识
DOI:10.1021/acscatal.2c05144
摘要
Advanced anodic electrocatalysis is essential for boosting overall carbon dioxide (CO2) electrolysis. In this work, we demonstrate partially pyrolyzed nickel-organic frameworks for efficient methanol oxidation at the anode. Experimental validation and theoretical calculation results demonstrate that the partial deligandation could maintain the porous skeleton and ensure more accessible nickel sites for in situ transformation to the Ni-OOH active phase, modulating the O–H activation pathway of methanol upgradation for selective and efficient formate electrosynthesis. An overall electrolysis system driving methanol and CO2 covalorization reduces the energy consumption of 23% at 200 mA cm–2 in a flow cell and is further implemented in a zero-gap membrane electrode assembly device with an improved processing capacity of ca. 500 mA cm–2 at 2.4 V. This work provides significant concepts for designing advanced electrocatalysts and electrolyzer configurations to realize decarbonization and valuables coproduction with high energy efficiency.
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