Gaussian-3 理论研究烷基硫自由基及其阴离子：结构、热化学和电子亲合势。

A Gaussian-3 theoretical study of the alkylthio radicals and their anions: structures, thermochemistry, and electron affinities.

机构信息

Shijiazhuang University of Economics, Shijiazhuang 050031, People's Republic of China.

出版信息

J Mol Model. 2013 Aug;19(8):3225-31. doi: 10.1007/s00894-013-1855-3. Epub 2013 May 1.

Abstract

The optimized geometries, electron affinities, and dissociation energies of the alkylthio radicals have been determined with the higher level of the Gaussian-3(G3) theory. The geometries are fully optimized and discussed. The reliable adiabatic electron affinities with ZPVE correction have been predicted to be 1.860 eV for the methylthio radical, 1.960 eV for the ethylthio radical, 1.980 and 2.074 eV for the two isomers (n-C3H7S and i-C3H7S) of the propylthio radical, 1.991, 2.133 and 2.013 eV for the three isomers (n-C4H9S, t-C4H9S, and i-C4H9S) of the butylthio radical, and 1.999, 2.147, 2.164, and 2.059 eV for the four isomers (n-C5H11S, b-C5H11S, c-C5H11S, and d-C5H11S) of the pentylthio radical, respectively. These corrected EAad values for the alkylthio radicals are in good agreement with available experiments, and the average absolute error of the G3 method is 0.041 eV. The dissociation energies of S atom from neutral CnH2n+1S (n = 1-5) and S(-) from corresponding anions CnH2n+1S(-) species have also been estimated respectively to examine their relative stabilities.

摘要

已用高斯-3(G3)理论的更高水平确定了烷基硫自由基的优化几何形状、电子亲和能和离解能。对几何形状进行了全面优化和讨论。预测了经过 ZPVE 校正的可靠绝热电子亲和能，甲基硫自由基为 1.860eV，乙基硫自由基为 1.960eV，丙基硫自由基的两种异构体（正丙硫自由基和异丙硫自由基）为 1.980eV 和 2.074eV，丁基硫自由基的三种异构体（正丁硫自由基、仲丁硫自由基和异丁硫自由基）为 1.991eV、2.133eV 和 2.013eV，戊基硫自由基的四种异构体（正戊硫自由基、仲戊硫自由基、环戊硫自由基和异戊硫自由基）为 1.999eV、2.147eV、2.164eV 和 2.059eV。这些经校正的 EAad 值与现有的实验结果吻合较好，G3 方法的平均绝对误差为 0.041eV。还分别估算了中性 CnH2n+1S(n=1-5)中 S 原子的离解能和相应阴离子 CnH2n+1S(-)中 S(-)的离解能，以检验它们的相对稳定性。

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Gaussian-3 理论研究烷基硫自由基及其阴离子：结构、热化学和电子亲合势。

A Gaussian-3 theoretical study of the alkylthio radicals and their anions: structures, thermochemistry, and electron affinities.

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