Bronsted酸催化2-羟基查尔酮与M06-2X官能团环化反应机理的DFT研究

IF 1.3 Q3 ENGINEERING, CHEMICAL

Bulletin of Chemical Reaction Engineering and Catalysis Pub Date : 2021-08-22 DOI:10.9767/bcrec.16.4.11487.796-803

S. Hildayani, M. Martoprawiro, Y. M. Syah

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引用次数: 0

摘要

黄酮类化合物是一类具有广泛应用的黄酮类化合物，如药物发现的前体。在实验室中，黄烷酮通常由查尔酮化合物合成。查尔酮向黄烷酮的转化可以用布朗斯特酸催化。该过程的反应机理是通过迈克尔加成反应提出的，然而，该反应的能量细节和速率决定步骤并不确定。本研究旨在研究以布朗斯特酸为催化剂转化查尔酮-黄烷酮的反应机理，并用计算方法研究溶剂对反应能量分布的影响。在本研究中，使用M06-2X泛函的DFT计算方法对所述反应的反应机理进行了建模。使用PCM模型在气相和存在溶剂效应的情况下进行了计算。结果表明，查尔酮-黄烷酮的转化机理分为质子化、环化和互变异构三个步骤。基于这些计算，速率决定步骤是互变异构化反应，其在具有或不具有溶剂效应的情况下表现出相同的结果。版权所有©2021作者所有，BCREC集团出版。这是CC BY-SA许可证下的开放访问文章(https://creativecommons.org/licenses/by-sa/4.0)。

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DFT Study on the Reaction Mechanism of Cyclization of 2-Hydroxy Chalcone Catalyzed by Bronsted Acid with M06-2X Functional

Flavanones are one of the flavonoid group that has wide variety of applications such as a precursors in drug discovery. In the laboratory, flavanone is often synthesized from chalcone compounds. The conversion of chalcone to flavanone can be catalyzed by bronsted acid. The reaction mechanism for this process is proposed through the Michael addition reaction, however, the energetic details and the rate determining step for this reaction is not certainly known. This research aimed to investigate the reaction mechanism for chalcone-flavanone conversion with the present of bronsted acid as catalyst and also studied the effect of the solvent on the reaction energy profile with computational method. In this study, the modeling of the reaction mechanism for the said reaction was carried out using the DFT computational method with M06-2X functional. The computation was done both in the gas phase and in present of the solvent effect using the PCM models. The results showed that the mechanism of chalcone-flavanone conversion occurred in three steps which are protonation, cyclization, and then tautomerization. Based on these calculations, the rate determining step was the tautomerization reaction, which exhibited the same results with or without the solvent effects. Copyright © 2021 by Authors, Published by BCREC Group. This is an open access article under the CC BY-SA License (https://creativecommons.org/licenses/by-sa/4.0).

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来源期刊

Bulletin of Chemical Reaction Engineering and Catalysis ENGINEERING, CHEMICAL-

CiteScore

3.20

自引率

6.70%

发文量

审稿时长

12 weeks

期刊介绍： Bulletin of Chemical Reaction Engineering & Catalysis, a reputable international journal, provides a forum for publishing the novel technologies related to the catalyst, catalysis, chemical reactor, kinetics, and chemical reaction engineering. Scientific articles dealing with the following topics in chemical reaction engineering, catalysis science and engineering, catalyst preparation method and characterization, novel innovation of chemical reactor, kinetic studies, etc. are particularly welcome. However, articles concerned on general chemical engineering process are not covered and out of scope of this journal