Research on the reaction mechanism of 2,4,6‐trinitrotoluene resource utilization I: Formation of 2,4,6‐trinitrobenzoic acid in acetic acid with N,N′,N″‐trihydroxyisocyanuric acid catalyst

化学 催化作用 醋酸 过渡状态 羧酸 反作用坐标 反应速率 反应机理 活化能 吉布斯自由能 选择性 计算化学 有机化学 热力学 物理
作者
Guan Zhang,Jin Li,Zongkuan Liu
出处
期刊:Journal of Physical Organic Chemistry [Wiley]
卷期号:36 (11)
标识
DOI:10.1002/poc.4564
摘要

Abstract As an organic molecule catalyst, N , N ′, N ″‐trihydroxyisocyanuric acid can selectively catalyze the oxidation of the methyl group of waste 2,4,6‐trinitrotoluene to generate 2,4,6‐trinitrobenzoic acid. This reaction can avoid environmental pollution by inorganic heavy metal catalysts. In this study, four reaction stages of this catalytic reaction were designed and validated computationally at the M06‐2X‐D3ZERO/6‐311G(d,p) level using the acetic acid solvent model. These validations include transition state searches, intrinsic reaction coordinate calculations, reactant and product optimizations, and frequency calculations. The final reaction network of 23 transition states shows that after N , N ′, N ″‐trihydroxyisocyanuric acid activation and common reaction, the network bifurcates into two stages: alcohol to carboxylic acid and aldehyde to carboxylic acid. Although the former stage releases about 155 kcal/mol of Gibbs free energy, less than the 177 kcal/mol from the latter stage, the overall reaction equation shows that the pathway including former stage does not consume the catalytically active substance IM_T2, which saves the energy required for reactivation and is thus more favorable. Furthermore, the key transition states in the reaction network include bimolecular substitution reactions and proton‐hopping transfer reactions. Analyses of their interaction region indicators and intrinsic reaction coordinate results demonstrate strong selectivity. Additionally, the energy barriers and heat releases of the latter are twice and 1.3 times greater than those of the former, respectively. In summary, this study elucidated two competitive reaction pathways and identified the more energetically favorable and selective pathway, and it provides useful insights for further optimization of industrial utilization of 2,4,6‐trinitrotoluene.

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