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氯化氢与丙烯加成反应中溶剂效应的反作用力分析

Reaction force analysis of solvent effects in the addition of HCl to propene.

作者信息

Burda Jaroslav V, Murray Jane S, Toro-Labbé Alejandro, Gutiérrez-Oliva Soledad, Politzer Peter

机构信息

Department of Chemical Physics and Optics, Faculty of Mathematics and Physics, Charles University, Ke Karlovu 3, 112 16 Prague, Czech Republic.

出版信息

J Phys Chem A. 2009 Jun 11;113(23):6500-3. doi: 10.1021/jp9025927.

Abstract

We have investigated computationally, via reaction force analyses, the addition of HCl to propene, both Markovnikov and anti-Markovnikov, in the gas phase and in chloroform solution. The calculations were carried out at the CCSD(T)/aug-pVTZ//B3LYP/aug-cc-pVDZ level. A particular interest was in the magnitudes of the two components of the activation energies that are defined by the minimum of the reaction force for each process. The total activation energies for Markovnikov and anti-Markovnikov addition are found to be, respectively, 39.7 and 45.9 kcal/mol in the gas phase and 27.1 and 34.9 kcal/mol in chloroform solution. In solution, the first portion of the reaction (prior to the reaction force minimum) involves substantial stretching of the H-Cl bond, which makes that contribution to the total activation energy greater than in the gas phase. However the second part of the activation is much less energy demanding in solution for both the Markovnikov and anti-Markovnikov additions. The overall preference for Markovnikov addition is due to the electrostatic potential of propene favoring the initial approach of the HCl hydrogen to the terminal carbon.

摘要

我们通过反应力分析,对气相和氯仿溶液中氯化氢与丙烯的加成反应(包括马氏加成和反马氏加成)进行了计算研究。计算在CCSD(T)/aug-pVTZ//B3LYP/aug-cc-pVDZ水平上进行。特别关注的是由每个过程的反应力最小值定义的活化能的两个组成部分的大小。发现马氏加成和反马氏加成的总活化能在气相中分别为39.7和45.9千卡/摩尔,在氯仿溶液中分别为27.1和34.9千卡/摩尔。在溶液中,反应的第一部分(在反应力最小值之前)涉及H-Cl键的大量拉伸,这使得其对总活化能的贡献大于气相中的贡献。然而,对于马氏加成和反马氏加成,溶液中活化的第二部分所需能量要少得多。马氏加成的总体偏好是由于丙烯的静电势有利于HCl氢原子向末端碳的初始接近。

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