新型一锅三组分反应下吡喃[2,3-d]嘧啶生成动力学及机理研究

S. Habibi‐Khorassani, M. Maghsoodlou, M. Shahraki, Sadegh Talaiefar, Jasem Aboonajmi
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引用次数: 3

摘要

以乙酸钠为催化剂,进行了4-硝基苯甲醛2、丙二腈3和硫代巴比妥酸1的一锅三组分缩合反应。该方法使用无毒的反应组分,反应时间短,环境友好,易于加工,收率高。对反应的动力学和机理进行了光谱研究,并根据程序中包含的标准方程自动计算二级速率常数(kovr = k1)。二阶速率常数Ln(kovr = k1)和Ln(kovr = k1)/T分别与Arrhenius方程和Eyring方程吻合较好。该数据为计算反应的活化能和参数(Ea, ΔG‡,ΔS‡和ΔH‡)提供了合适的图。此外,还研究了溶剂、浓度和催化剂对反应速率的影响,得到了反应机理方面的有用信息。结果表明,反应机理的第一步是速率决定步骤(RDS)。根据实验数据和稳态近似证实了所提出的机理。
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Kinetic and Mechanistic Investigation of Pyrano[2,3-d]pyrimidine Formation in the Presence of Catalyst under Novel One-Pot Three-Component Reaction
Sodium acetate was applied as an efficient catalyst for the one-pot, three-component condensation reactions consisting of 4-nitrobenzaldehyde 2, malononitrile 3, and thiobarbituric acid 1. Use of nontoxic reaction components, short reaction times, environmental, easy work-up, and high yields are some remarkable advantages of this method. Kinetics and mechanism of the reaction were spectrally studied and the second order rate constant (kovr = k1) was automatically calculated by the standard equations contained within the program. The second order rate constant [Ln(kovr = k1), Ln(kovr = k1)/T] that depended on reciprocal temperature was in good agreement with the Arrhenius and Eyring equations, respectively. This data provided the suitable plots for calculating the activation energy and parameters (Ea, ΔG‡, ΔS‡, and ΔH‡) of the reaction. Furthermore, from studying the effects of solvent, concentration, and catalyst on the reaction rate, useful information was obtained regarding the mechanism. The results showed that the first step of the reaction mechanism is a rate determining step (RDS). The proposed mechanism was confirmed in accordance with the experimental data and also the steady state approximation.
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