从头算预测CHCHI + O反应中产物的立体特异性：顺式与反式CHCHOO的形成

Ab initio prediction for product stereo-specificity in the CHCHI + O reaction: formation of syn- vs anti-CHCHOO.

作者信息

Trac Hue-Phuong, Raghunath Putikam, Lin Ming-Chang

机构信息

Department of Applied Chemistry and Center for Emergent Functional Matter Science, National Yang Ming Chiao Tung University, Hsinchu, 300, Taiwan.

出版信息

J Mol Model. 2025 Jul 11;31(8):205. doi: 10.1007/s00894-025-06426-4.

DOI:10.1007/s00894-025-06426-4

PMID:40643725

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12254064/

Abstract

CONTEXT

The stereo-specific production of syn- and anti-CHCHOO conformers from the CHCHI + O reaction has been investigated by ab initio quantum-chemical and statistical theory studies. The results of the studies clearly indicate that the [syn]:[anti] product ratio depends on both temperature and pressure of the reaction system, and is kinetically, rather than thermodynamically, controlled. Most experimental data measured near room temperature at 2-10 Torr He pressure agree with the predicted results in terms of either the absolute rate constants for syn- and anti-CHCHOO production and/or the [syn]:[anti] product ratio. If the stereo-specificity of syn- and anti-CHCHOO formation were controlled thermodynamically, one would predict [syn]:[anti] = 241:1 independent of pressure at 298 K, instead of (80 ± 10):(20 ± 10) measured experimentally or 86:14 predicted theoretically at 5-Torr He pressure.

METHODS

All calculations were performed using Gaussian 16 software. Geometry, frequency, and IRC analysis calculations were conducted at the B3LYP/Aug-cc-PVTZ level of theory. The potential energy surface of the system was computed at the CCSD(T)/Aug-cc-PVTZ//B3LYP/Aug-cc-PVTZ level. The rate constants for individual product channels in the reaction, including the direct production of IO + CHCHO and the collisional deactivation of the excited CHCHIO* intermediate formed by the association of CHCHI with O, were predicted by statistical theory calculations using the Variflex code.

摘要

背景

通过从头算量子化学和统计理论研究，对CHCHI + O反应中顺式和反式CHCHOO构象异构体的立体专一性生成进行了研究。研究结果清楚地表明，[顺式]：[反式]产物比率取决于反应体系的温度和压力，并且是动力学控制而非热力学控制。在2 - 10托氦气压力下接近室温测量的大多数实验数据，在顺式和反式CHCHOO生成的绝对速率常数和/或[顺式]：[反式]产物比率方面与预测结果一致。如果顺式和反式CHCHOO形成的立体专一性是由热力学控制的，那么在298 K时可以预测[顺式]：[反式] = 241:1，与压力无关，而不是实验测量的(80 ± 10):(20 ± 10)，或者在5托氦气压力下理论预测的86:14。

方法

所有计算均使用高斯16软件进行。在B3LYP/aug-cc-PVTZ理论水平上进行几何结构、频率和内禀反应坐标（IRC）分析计算。在CCSD(T)/aug-cc-PVTZ//B3LYP/aug-cc-PVTZ水平上计算体系的势能面。使用Variflex代码通过统计理论计算预测反应中各个产物通道的速率常数，包括直接生成IO + CHCHO以及CHCHI与O缔合形成的激发态CHCHIO*中间体的碰撞失活。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e865/12254064/01e2b6fc5c3c/894_2025_6426_Fig1_HTML.jpg

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Ab initio prediction for product stereo-specificity in the CHCHI + O reaction: formation of syn- vs anti-CHCHOO.从头算预测CHCHI + O反应中产物的立体特异性：顺式与反式CHCHOO的形成

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从头算预测CHCHI + O反应中产物的立体特异性：顺式与反式CHCHOO的形成

Ab initio prediction for product stereo-specificity in the CHCHI + O reaction: formation of syn- vs anti-CHCHOO.

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METHODS

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