Department of Chemistry, University of Cincinnati, P.O. Box 210172, Cincinnati, Ohio, 45221, United States.
ChemSusChem. 2020 Jul 7;13(13):3412-3417. doi: 10.1002/cssc.202001037. Epub 2020 Jun 5.
The effects of primary and second coordination spheres on molecular electrocatalysis have been extensively studied, yet investigations of third functional spheres are rarely reported. Here, an electrocatalyst (ZnPEG8T) was developed with a hydrophilic channel as a third functional sphere that facilitates relay proton shuttling to the primary and second coordination spheres for enhanced catalytic CO reduction. Using foot-of-the-wave analysis, the ZnPEG8T catalyst displayed CO -to-CO activity (TOF ) thirty times greater than that of the benchmark catalyst without a third functional sphere. A kinetic isotopic effect (KIE) study, in conjunction with voltammetry and UV/Vis spectroscopy, uncovered that the rate-limiting step was not the protonation step of the metallocarboxylate intermediate, as observed in many other molecular CO reduction electrocatalysts, but rather the replenishment of protons in the proton-shuttling channel. Controlled-potential electrolysis using ZnPEG8T displayed a faradaic efficiency of 100 % for CO -to-CO conversion at -2.4 V vs. Fc/Fc . A Tafel plot was also generated for a comparison to other reported molecular catalysts. This report validates a strategy for incorporating higher functional spheres for enhanced catalytic efficiency in proton-coupled electron-transfer reactions.
人们广泛研究了第一和第二配位层对分子电催化的影响,但对于第三功能层的研究却很少报道。在此,设计了一种具有亲水性通道的电催化剂(ZnPEG8T)作为第三功能层,以促进 relay 质子转移到第一和第二配位层,从而增强催化 CO 还原性能。通过波脚分析,ZnPEG8T 催化剂的 CO 到 CO 的活性(TOF)比没有第三功能层的基准催化剂高三十倍。动力学同位素效应(KIE)研究结合伏安法和紫外/可见光谱表明,限速步骤不是金属羧酸盐中间体的质子化步骤,如许多其他分子 CO 还原电催化剂中观察到的那样,而是质子转移通道中质子的补充。使用 ZnPEG8T 的恒电位电解在 -2.4 V vs. Fc/Fc 下显示出 100%的 CO 到 CO 转化率的法拉第效率。还生成了一个塔菲尔图以与其他报道的分子催化剂进行比较。该报告验证了在质子耦合电子转移反应中引入更高功能层以提高催化效率的策略。
