Junli Sun, Yufang Ding, Daiping He, Xulin Qiu, Chengying Luo and Ping Jiang
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引用次数: 0
Abstract
Carbon felt by concentrated nitric acid treatment (CFn) was utilized directly as a metal-free electrode for electrochemical hydrogenation of cinnamaldehyde (CAL) for the first time. CFn shows high selectivity and Faradaic efficiency (FE) in converting CAL to hydrocinnamaldehyde (HCAL). At a constant current density of 20 mA cm−2, CFn achieved 81.5% selectivity to HCAL with a FE of 85.7%. Compared with pristine carbon felt, CFn has more π electrons and carbonyl groups on its surface, which facilitate the adsorption of CAL and H2O, and a larger electrochemical surface area and good electron transfer properties. These may be responsible for its excellent performance for selective hydrogenation of CAL to HCAL. This work provides a cost-effective metal-free catalyst for HCAL production.
首次将经浓硝酸处理的碳毡(CFn)作为无金属电极直接用于肉桂醛(CAL)的电化学加氢。CFn在CAL转化为氢肉桂醛(HCAL)中表现出较高的选择性和法拉第效率(FE)。在恒流密度为20 mA cm−2时,CFn对HCAL的选择性为81.5%,FE为85.7%。与原始碳毡相比,CFn表面有更多的π电子和羰基,有利于CAL和H2O的吸附,并且具有更大的电化学表面积和良好的电子转移性能。这可能是它具有选择性氢化CAL到HCAL的优异性能的原因。本研究为生产高羧酸钙提供了一种低成本的无金属催化剂。
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