Cl2加成乙炔的自由基机理

S. M. Resende, J. R. Pliego, W. B. Almeida
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引用次数: 6

摘要

研究了乙炔气相中Cl2的自由基加成机理。通过对两分子相互作用势能面(PES)上的稳态点的计算,确定了反应物、过渡态和生成物的结构和能量。利用BD(T)/6-311+G(2df,2p)//CASSCF(6,6)/6- 31g (d,p)理论水平,在298.15 K下,估计起始步骤(Cl2+C2H2→Cl+C2H2Cl)的反应速率为10-18 l mol-1 s-1,这导致了少量Cl和C2H2Cl自由基的形成,并且在诱导期后,后续步骤才会发生,产生可测量数量的这些自由基。以下步骤在UCCSD(T)/6-311+G(2df,2p)//UMP2/6-31G(d,p)理论水平上进行了研究。C2H2+Cl→C2H2Cl的增殖反应活化能为-1.22 kcal mol-1,生成自由基C2H2Cl,其中两个氢位于分子的两侧(反式异构体)。该反应在298.15 K时的速率常数为2.85×1010 l mol-1 s-1。C2H2Cl自由基的两个同分异构体(顺式-反式)的相互转化非常快,速率常数为4.75×1010 s-1,因此可以认为它们处于平衡状态。C2H2Cl+Cl2→C2H2Cl2+Cl反应生成反式和顺式-1,2-二氯乙烯的速率常数分别为1.95×1010和3.63×109 l mol-1 s-1, C2H2+C2H2Cl→C2H2C2H2Cl两个聚合反应的速率常数约为102 l mol-1 s-1。因此,后一种反应不会与C2H2Cl2的形成相竞争,聚合产物也不会产生大量的产物。动力学数据分析得出97.3%的反式-1,2-二氯乙烯和2.7%的顺式-1,2-二氯乙烯产物。
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Free radical mechanism of the Cl2 addition to acetylene
The free radical mechanism for the addition of Cl2 to acetylene in the gas phase has been studied. The structures and energies of reactants, transition states and products were determined through abinitio calculations of the stationary points on the potential-energy surface (PES) for the interaction of these two molecules. Using BD(T)/6-311+G(2df,2p)//CASSCF(6,6)/6-31G(d,p) level of theory, the reaction rate for the initiation step (Cl2+C2H2→Cl+C2H2Cl) was estimated as 10-18 l mol-1 s-1 (at 298.15 K). This leads to the formation of a small quantity of Cl and C2H2Cl radicals, the chain propagators, and the following steps will only occur to an appreciable extent after an induction period, which generates a measurable amount of these radicals. The following steps were studied at the UCCSD(T)/6-311+G(2df,2p)//UMP2/6-31G(d,p) level of theory. The propagation reaction C2H2+Cl→C2H2Cl occurs with an activation energy of -1.22 kcal mol-1, and produces a radical C2H2Cl, where the two hydrogens are on opposite sides of the molecule (trans-isomer). This reaction has a rate constant 2.85×1010 l mol-1 s-1 at 298.15 K. The interconversion of the two isomers of the C2H2Cl radical (cis–trans) is very fast, with a rate constant 4.75×1010 s-1 and so these species can be considered to be in equilibrium. The rate constants for the reaction C2H2Cl+Cl2→C2H2Cl2+Cl, where the products trans- and cis-1,2-dichloroethylenes are formed, are 1.95×1010 and 3.63×109 l mol-1 s-1, respectively, and those for the two polymerization reactions C2H2+C2H2Cl→C2H2C2H2Cl are ca. 102 l mol-1 s-1. Hence, the latter reactions will not compete with the formation of C2H2Cl2, and the polymerization products will not be produced in meaningful amounts. Analysis of the kinetics data gives 97.3% of the trans-1,2-dichloroethylene and 2.7% of the cis-1,2-dichloroethylene products.
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