Thermal Decomposition of Diphenyl Tetroxane in Chlorobenzene Solution

A. G. Bordón, A. N. Pila, Mariela I. Profeta, M. Jorge, L. C. Jorge, J. M. Romero, N. Jorge
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Abstract

The thermal decomposition of Cyclic Diperoxide of Benzaldehyde 3,6-diphenyl-1,2,4,5-tetroxane, (DFT) in chlorobenzene solution in the studied temperature range (130°C - 166°C) satisfactorily satisfies a first order law up to 60% conversions of diperoxide. DFT would decompose through a mechanism in stages and initiated by the homolytic breakdown of one of the peroxidic bonds of the molecule, with the formation of the corresponding intermediate biradical. The concentration studied was very low, so that the effects of secondary reactions of decomposition induced by free radicals originated in the reaction medium can be considered minimal or negligible. The activation parameters for the unimolecular thermal decomposition reaction of the DFT are ΔH# = 30.52 ± 0.3 kcal·mol-1 and ΔS# = -6.38 ± 0.6 cal·mol-1 K-1. The support for a step-by-step mechanism instead of a process concerted is made by comparison with the theoretically calculated activation energy for the thermal decomposition of 1,2,4,5-tetroxane.
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二苯基四氧环在氯苯溶液中的热分解
在研究温度范围(130℃~ 166℃)下,苯甲醛3,6-二苯基-1,2,4,5-四氧环(DFT)在氯苯溶液中的热分解符合一阶定律,二过氧化物的转化率可达60%。DFT会通过一种分阶段的机制分解,由分子的一个过氧化物键的均解分解引发,并形成相应的中间双自由基。由于所研究的浓度很低,因此源于反应介质的自由基引起的分解二次反应的影响可以认为是最小的或可以忽略不计的。DFT单分子热分解反应的活化参数分别为ΔH# = 30.52±0.3 kcal·mol-1和ΔS# = -6.38±0.6 cal·mol-1 K-1。通过与理论计算的1,2,4,5-四己烷热分解活化能的比较,支持了分步机理而不是协调过程。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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