The Rate Constant - Reaction Free Energy Dependence for the Electron Transfer Reactions in Solutions. The Way to Interpret the Experimental Data Correctly

Q1 Arts and Humanities

Substantia Pub Date : 2023-02-08 DOI:10.36253/substantia-1872

L. Krishtalik

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Abstract

The relative influences of the reorganization energies of the classical and quantum modes on the maximum position of the rate constant – reaction free energy curve have been studied. In the framework of the continuum electrostatics, the electron transfer reorganization energies in methyltetrahydrofurane solutions for the system biphenylyl – spacer – acceptor were calculated. For different acceptors the solvent reorganization energy varies from 1.0 to 1.1 eV. When added with the rather small reorganization energies for classical intra-molecular modes we obtain 1.13 - 1.34 eV. With account of possible errors this coincides practically with the experimental estimate of the energy at the maximum of the rate–free energy curve DGmax ? -1.2 eV. Hence, we can conclude that the reorganization of quantum modes does not influence substantially the position of this maximum. To the contrary, in a non-polar solvent isooctane were the solvent reorganization does not play any role the reorganization of the quantum intra-reactants modes becomes determinant. These conclusions agree fully with the results of the general theoretical analysis and should be accounted for in the experimental data interpretation.

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溶液中电子转移反应的速率常数-反应自由能依赖性。正确解释实验数据的方法

研究了经典模式和量子模式的重组能对速率常数-反应自由能曲线最大位置的相对影响。在连续统静电的框架下，计算了联苯-间隔-受体体系在甲基四氢呋喃溶液中的电子转移重组能。对于不同的受体，溶剂重组能在1.0 ~ 1.1 eV之间变化。当加上经典分子内模式中相当小的重组能时，我们得到1.13 ~ 1.34 eV。考虑到可能存在的误差，这实际上与实验估计的无速率能量曲线DGmax ?-1.2 eV。因此，我们可以得出结论，量子模式的重组基本上不影响这个最大值的位置。相反，在非极性溶剂异辛烷中，当溶剂重组不起任何作用时，量子反应物内模式的重组成为决定因素。这些结论与一般理论分析的结果完全一致，应在实验数据解释中加以考虑。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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