无机和生物无机化学中压力对电子转移反应的影响

Joanna Macyk, Rudi van Eldik
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引用次数: 7

摘要

动力学和热力学研究涉及不同高压技术的应用,在获得无机和生物无机电子转移反应过程中发生的体积变化的机理信息方面非常有用。最基本的电子转移反应类型是自交换反应,其总反应体积为零,活化体积可以测量和讨论。在非对称电子转移反应的情况下,可以研究分子内和分子间的过程,并可以构建体积谱。在这种体系中,前体络合物的形成在某些情况下可以从动力学上识别出来。回顾了各种可逆和不可逆电子转移反应的活化和反应体积的典型值。给出了根据这些参数得出的力学结论。电子转移反应的体积分布可以根据反应坐标上的本征和溶剂体积变化来简化反应机理。
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Effect of pressure on electron transfer reactions in inorganic and bioinorganic chemistry

Kinetic and thermodynamic studies involving the application of different high-pressure techniques, are very useful in gaining mechanistic information on the basis of volume changes that occur during inorganic and bioinorganic electron transfer reactions. The most fundamental type of electron transfer reaction concerns self-exchange reactions, for which the overall reaction volume is zero, and activation volumes can be measured and discussed. In the case of non-symmetrical electron transfer reactions, intra- and intermolecular processes can be studied and volume profiles can be constructed. Precursor complex formation can in some cases be recognized kinetically in such systems. Typical values of activation and reaction volumes are reviewed for various reversible and irreversible electron transfer reactions. Mechanistic conclusions reached on the basis of these parameters are presented. Volume profiles for electron transfer reactions enable a simplistic presentation of the reaction mechanism on the basis of intrinsic and solvational volume changes along the reaction coordinate.

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