一锅三组分催化合成β-氨基酮绿色方案的全动力学和机理研究

S. Habibi‐Khorassani, M. Maghsoodlou, M. Shahraki, Sadegh Talaie Far, M. Mousavi
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引用次数: 3

摘要

本文首次采用绿色方案研究了苯甲醛1,4 -氯苯胺2与苯乙酮3在蔗糖催化下生成β-氨基酮的反应动力学和反应机理。采用紫外/可见分光光度法测定反应动力学参数。二级速率常数()由程序中包含的标准方程自动计算。在研究温度范围内,二阶速率常数依赖于温度的倒数,与Arrhenius方程和Eyring方程符合较好。这些数据为计算反应的活化能和参数(Ea,,和)提供了合适的图。此外,研究了溶剂、浓度和催化剂对反应机理的影响,得到了有用的信息。结果表明,反应机理的第一步是速率决定步骤(RDS)。得到的实验数据和稳态假设证实了所提出的机理。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Full Kinetics and a Mechanistic Investigation of the Green Protocol for Synthesis of β-Aminoketone in the Presence of Saccharose as a Catalyst by a One-Pot Three-Component Reaction
For the first time, in a green protocol, an investigation of the kinetics and mechanism of the reaction between benzaldehyde 1, 4-chloroanilinne 2, and acetophenone 3 compounds in the presence of saccharose as a catalyst was performed for generating β-aminoketone. For determining the kinetic parameters, the reaction was monitored by using the UV/Vis spectrophotometry technique. The second order rate constant () was automatically calculated by the standard equations contained within the program. In the studied temperature range, the second order rate constant (, ) depended on reciprocal temperature that was in good consistent with Arrhenius and Eyring equations, respectively. These data provided the suitable plots for calculating the activation energy and parameters (Ea, , , and ) of the reaction. Furthermore, useful information was obtained from studying the effects of solvent, concentration, and catalyst on the reaction mechanism. The results showed that the first step of the reaction mechanism is a rate determining step (RDS). The obtained experimental data and also the steady state assumption confirmed the proposed mechanism.
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