使用CM5电荷和密度泛函理论对水中Cl + CHCl S2反应进行的量子力学/分子力学计算。
QM/MM Calculations for the Cl + CHCl S2 Reaction in Water Using CM5 Charges and Density Functional Theory.
作者信息
Tirado-Rives Julian, Jorgensen William L
机构信息
Department of Chemistry , Yale University , New Haven , Connecticut 06520-8107 , United States.
出版信息
J Phys Chem A. 2019 Jul 11;123(27):5713-5717. doi: 10.1021/acs.jpca.9b04121. Epub 2019 Jun 27.
Abstract
The prototypical S2 reaction of chloride ion with methyl chloride has been reinvestigated in aqueous solution using QM/MM methodology featuring MO6-2X/6-31+G(d) calculations with the TIP4P water model, and partial charges were computed with the CM5 method. Though the DFT method yields excellent gas-phase energetics for the reaction, the QM/MM approach is found to yield overestimation of the activation barrier by ca. 12 kcal/mol. The discrepancy is traced to underestimate of the magnitude of the partial charges on the chlorine atoms in the transition structure. When CM1 or CM3 charges based on semiempirical wave functions are used instead, the agreement with experiment is much improved. The findings emphasize the sensitivity of the results of QM/MM calculations to the choice of QM method, the MM force field, and implementation of the QM/MM interface.
摘要
使用以TIP4P水模型进行MO6 - 2X/6 - 31 + G(d)计算的QM/MM方法,并采用CM5方法计算部分电荷,在水溶液中重新研究了氯离子与氯甲烷的典型S2反应。尽管密度泛函理论(DFT)方法对该反应给出了出色的气相能量学结果,但发现QM/MM方法对活化能垒的估计高估了约12千卡/摩尔。这种差异可追溯到过渡结构中氯原子上部分电荷大小的低估。当使用基于半经验波函数的CM1或CM3电荷时,与实验的一致性有了很大改善。这些发现强调了QM/MM计算结果对QM方法、MM力场以及QM/MM界面实现方式选择的敏感性。
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