氘
化学
电合成
偶极子
吸附
亚稳态
电负性
无机化学
Atom(片上系统)
原位
光化学
力矩(物理)
氧化还原
产量(工程)
铜
氟
电偶极矩
电子转移
作者
Liang Tang,Meng He,Chuanqi Cheng,Huizhi Li,Zhen Chen,Bin Zhang,Cuibo Liu
标识
DOI:10.1002/anie.202522820
摘要
Electrocatalytic deuterodechlorination of trichloroacetic acid with D2O provides a high single-pass deuterium ratio avenue for the synthesis of acetic-d3 acid at room temperature. However, increasing C─Cl dipole moments via stepwise dechlorination, and gradual active site deactivation make active and stable complete dechlorination highly challenging. Here, metastable Cuδ+/CuOx dual sites are constructed in situ and maintained under pulsed electrolysis, enabling 70 h of stable electrosynthesis of acetic-d3 acid with a 97% deuterium ratio. Surface copper oxides are formed in situ and then convert to Cuδ+/CuOx when the oxidation and reduction potentials are intermittently applied, which enhances C─Cl adsorption to promote electron transfer to Cl atoms and attracts ─COOH to increase the electronegativity of the C atom of C─Cl, remarkably reducing the C─Cl dipole moment and promoting complete dechlorination. The fast electrosynthesis of 20 g of CD3COOH with applications in the deuterium labeling of drugs and DNA bases and markedly increased yields in the hydrogenation/deuteration of other chlorides and bromides demonstrate the methodology's potential.
科研通智能强力驱动
Strongly Powered by AbleSci AI