化学
电子转移
质子
纳米技术
化学物理
光化学
核物理学
物理
材料科学
作者
Jingwen Sun,Yi-An Lai,Jiangtian Sun,Yifan Du,Brandon Jolly,Hongyuan Sheng,Tai Ying Lai,Hao Ming Chen,Cyrille Costentin,Matthew Nava,Chong Liu
摘要
Electroanalysis of reaction kinetics is a time-tested method for the mechanistic inquiry of proton-coupled electron transfer (PCET), yet the tedious manual nature of its experimental operation reduces the analytical tool’s research throughput and impedes its broader application. Here we report an automated, high-throughput electrochemical platform for reliable electroanalysis of PCET reactions with [Os II (bpy) 2 (py)(H 2 O)] 2+ as the model system. The automated system increases the research throughput by more than 10-fold and accelerates our discovery of a concerted PCET pathway facilitated by a proposed adduct formation between the redox center and phosphate as a proton donor/acceptor. As opposed to at least 3 years of manual experimentation, automated electroanalysis completed the inquiry within 1,580 h (66 days) by analyzing more than 43,800 voltammograms and quantifying approximately 730 kinetic rate constants. Such experimental “big data” opens up new lines of inquiry that were not feasible before. Automating electroanalysis accelerates discoveries for a wide range of critical applications in energy conversion and storage.
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