硝基苯乙烯和苯甲醛电化学反应的机理研究:对所有可能途径和中间产物的 DFT 计算

IF 2.8 3区 化学 Q2 CHEMISTRY, MULTIDISCIPLINARY
D. Shirvani, H. Tavakol, M. Abedini
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引用次数: 0

摘要

在 DFT M06-2X/def2-TZVP 理论水平上,对 β-硝基苯乙烯和苯甲醛之间的电化学反应进行了理论研究。反应机理被剖析为 5 条拟议路线,通过 3 条途径,最后得到 4 种可能的产物(P1 至 P4)。为了获得全面的理解,我们在气相和溶液中使用三种溶剂(二甲基甲酰胺、甲醇和水)对这些途径进行了探索。在气相中,这五种途径的总障碍(括号中的能量是指相对于反应物的相对 G,单位为 kcal/mol)依次为A2 (- 48.22) < A1 (21.29) < C1 (21.59) < B (29.81) < C2 (77.59)。生成四种生成物的 ΔG(括号中的能量指相对于反应物的相对 G,单位为 kcal/mol)依次为P2 (- 233.40) < P4 (- 82.13) < P3 (- 74.18) < P1 (- 46.97)。因此,在苯甲醛和质子都多的情况下,P2 是主要产物;在苯甲醛多而质子少的情况下,P1 是优先产物;在苯甲醛和质子都少的情况下,P4 是优先产物(仅通过 C1 路线)。在溶剂中,尽管有气相数据,但路径 B 和产物 P3 是有利的路径和产物。热力学上,P3 在三种溶剂中的平均相对 G 值为 - 112.09 kcal/mol,P2 为 - 112.1,P4 为 - 118.46,P1 为 - 60.25。从动力学角度看,P3 过渡态在三种溶剂中的平均相对 G 值为 - 8.25 kcal/mol,P2 为 - 42.84,P4 通过 C1 途径为 34.16,通过 C2 途径为 29.05,P1 为 95.81。因此,根据动力学和热力学数据,在质子浓度过高时,P2 是最有利的产物,而在质子浓度较低时,P3 是最有利的产物。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

A mechanistic study of the electrochemical reaction between nitrostyrene and benzaldehyde: DFT calculations on all possible routes and intermediates

A mechanistic study of the electrochemical reaction between nitrostyrene and benzaldehyde: DFT calculations on all possible routes and intermediates

A theoretical investigation of the electrochemical reaction between β-nitrostyrene and benzaldehyde was conducted at the DFT M06-2X/def2-TZVP level of theory. The reaction mechanism was dissected into five proposed routes, via 3 pathways, concluding with 4 possible products (P1 to P4). To gain a comprehensive understanding, we explored these routes both in the gas phase and in solution using three solvents: dimethylformamide, methanol, and water. In the gas phase, the overall barriers of these five routes (the energy in parentheses refers to the relative G versus reactants in kcal/mol) are in this order: A2 (− 48.22) < A1 (21.29) < C1 (21.59) < B (29.81) < C2 (77.59). The ΔG for the formation of four products (the energy in parentheses refers to the relative G versus reactants in kcal/mol) are in this order: P2 (− 233.40) < P4 (− 82.13) < P3 (− 74.18) < P1 (− 46.97). Therefore, in the extra amount of both benzaldehyde and proton, P2 is the major product, in the extra amount of benzaldehyde and minimum amount of proton, P1 is preferred, and in the small amount of benzaldehyde and proton, P4 is preferred (only via C1 route). In the solvents, despite the gas phase data, path B and product P3 are a favorable path and products. Thermodynamically, the average relative G in three solvents for P3 is − 112.09 kcal/mol, for P2 is − 112.1, for P4 is − 118.46, and for P1 is − 60.25. Kinetically, the average relative G in three solvents for the transition states of P3 is − 8.25 kcal/mol, P2 is − 42.84, P4 is 34.16 via route C1 and 29.05 via route C2, and P1 is 95.81. Therefore, in the excess concentration of proton, P2 is the most favorable product by both kinetic and thermodynamic data and in low concentration of proton, P3 is the most favorable product.

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来源期刊
CiteScore
5.70
自引率
18.20%
发文量
229
审稿时长
2.6 months
期刊介绍: Research on Chemical Intermediates publishes current research articles and concise dynamic reviews on the properties, structures and reactivities of intermediate species in all the various domains of chemistry. The journal also contains articles in related disciplines such as spectroscopy, molecular biology and biochemistry, atmospheric and environmental sciences, catalysis, photochemistry and photophysics. In addition, special issues dedicated to specific topics in the field are regularly published.
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