Linear Free Energy Relationships and Transition State Analysis of CO 2 Reduction Catalysts Bearing Second Coordination Spheres with Tunable Acidity

化学 催化作用 溶剂化 过渡状态 质子 计算化学 分子 有机化学 量子力学 物理
作者
Kaeden Teindl,Brian O. Patrick,Eva M. Nichols
出处
期刊:Journal of the American Chemical Society [American Chemical Society]
卷期号:145 (31): 17176-17186 被引量:47
标识
DOI:10.1021/jacs.3c03919
摘要

In molecular catalysts, protic functional groups in the secondary coordination sphere (SCS) work in conjunction with an exogenous acid to relay protons to the active site of electrochemical CO 2 reduction; however, it is not well understood how the acidity of the SCS and exogenous acid together determine the kinetics of catalytic turnover. To evaluate the relative contributions of proton transfer driving forces, we synthesized a series of modular iron tetraphenylporphyrin electrocatalysts bearing SCS amides of tunable p K a (17.6 to 20.0 in dimethyl sulfoxide (DMSO)) and employed phenols of variable acidity (15.3 to 19.1) as exogenous acids. This system allowed us to (1) evaluate contributions from proton transfer driving forces associated with either the SCS or exogenous acid and (2) obtain mechanistic insights into CO 2 reduction as a function of p K a . A series of linear free-energy relationships show that kinetics become increasingly sensitive to variations in SCS p K a when more acidic exogenous acids are used (0.82 ≥ Brønsted α ≥ 0.13), as well as to variations in exogenous acid p K a when SCS acidity is increased (0.62 ≥ Brønsted α ≥ 0.32). An Eyring analysis suggests that the rate-determining transition state becomes more ordered with decreasing SCS acidity, which is consistent with the proposal that SCS acidity modulates charge accumulation and solvation at the rate-limiting transition state. Together, these insights enable the optimization of activation barriers as a function of both SCS and exogenous acid p K a and can further guide the rational design of electrocatalytic systems wherein contributions from all participants in a proton relay are considered.
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