己二酸
化学
电合成
环己烯
环氧化物
选择性
激进的
硝酸
烯烃纤维
催化作用
微型反应器
化学工程
有机化学
皮克林乳液
光化学
电极
级联反应
环己烷
高锰酸盐
氧化还原
阴极
均三甲苯
组合化学
羟基化
阳极
无机化学
磺酸
作者
Xiaotian Liu,Yuxuan Lu,Yuxuan Lu,Tianyang Liu,Yulin Cui,Yu-Cheng Huang,Chunming Yang,Feifan Zhang,Ziang Gao,Yawei Li,Haitao Li,Yuanbei Yang,Zhibin Du,Ying‐Rui Lu,Ying‐Rui Lu,Hengquan Yang
摘要
Adipic acid is currently produced via a nitric acid oxidation route, leading to substantial NOx and CO2 emissions. The sustainable adipic acid production powered by renewable electricity is highly desirable. Herein, we report an innovative strategy for efficient electrosynthesis of adipic acid by cascading a bromide-assisted olefin epoxidation and a subsequent epoxide oxidation on a Pickering-droplet-integrated electrode under ambient conditions. The oil–water interface provided by Pickering emulsion droplets on the electrode was found to be capable of stabilizing bromine radicals for facilitating the epoxidation process and simultaneously weakening the interfacial hydrogen-bonding network to suppress the competitive oxygen evolution reaction, which are crucial to activate the relatively inert C═C bonds and enhance the selectivity of epoxide oxidation. With this strategy, we achieved efficient continuous-flow adipic acid electrosynthesis with high FEs (∼80%), high selectivity (∼95%), long-term operational stability (1000 h), and scaling capability to achieve a 100 g scale synthesis at industrially relevant current densities (100 mA cm–2), using crude cyclohexene from the benzene hydrogenation as feedstock.
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