法拉第效率
甲酸
催化作用
铋
金属有机骨架
化学
电催化剂
无机化学
配体(生物化学)
金属
材料科学
电化学
物理化学
有机化学
电极
吸附
受体
生物化学
作者
Zhiqiang Jiang,Minyi Zhang,Hao Chen,Bing Wang,Wenjuan Fan,Chenhuai Yang,Xiaoju Yang,Zhicheng Zhang,Xuan Yang,Chunsen Li,Tian‐Hua Zhou
标识
DOI:10.1002/anie.202311223
摘要
Zeolitic metal-organic frameworks (ZMOFs) have emerged as one of the most promsing catalysts for energy conversion, but they suffer from either weak bonding between metal-organic cubes (MOCs) that decrease their stability during catalysis processes or low activity due to inadequate active sites. In this work, through ligand-directing strategy, we successfully obtain an unprecedented bismuth-based ZMOF (Bi-ZMOF) featuring a ACO topological crystal structure with strong coordination bonding between the Bi-based cages. As a result, it enables efficient reduction of CO2 to formic acid (HCOOH) with Faradaic efficiency as high as 91 %. A combination of in situ surface-enhanced infrared absorption spectroscopy and density functional theory calculation reveals that the Bi-N coordination contributes to facilitating charge transfer from N to Bi atoms, which stabilize the intermediate to boost the reduction efficiency of CO2 to HCOOH. This finding highlights the importance of the coordination environment of metal active sites on electrocatalytic CO2 reduction. We believe that this work will offer a new clue to rationally design zeolitic MOFs for catalytic reaction.
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