甲醛
甲酸
甲醇
化学
甲醛脱氢酶
电解
无机化学
草酸
电合成
电化学
法拉第效率
二氧化碳电化学还原
阳极
催化作用
一氧化碳
有机化学
电极
NAD+激酶
物理化学
电解质
酶
作者
Jia Bin Yeo,Jun Ho Jang,Young In Jo,Jeong Woo Koo,Ki Tae Nam
出处
期刊:Angewandte Chemie
[Wiley]
日期:2023-11-29
卷期号:63 (2): e202316020-e202316020
被引量:31
标识
DOI:10.1002/anie.202316020
摘要
to formaldehyde at the cathode is required. Still, it has been scarcely reported previously due to the acidity of the formic acid intermediate and the facile over-reduction of formaldehyde to methanol. By enabling the activation and subsequent stabilization of formic acid and formaldehyde respectively in methanol solvent, we were able to implement a strategy where formaldehyde derivatives were generated at the cathode alongside the anode. Further mechanism studies revealed that protons supplied from the anodic reaction contribute to the activation of formic acid and the stabilization of the formaldehyde product. Additionally, it was found that the cathodic formaldehyde derivative Faradaic efficiency can be further increased through prolonged electrolysis time up to 50 % along with a maximum anodic formaldehyde derivative Faradaic efficiency of 90 %.
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