Computational insights on the structure of transition states and intermediates of the Boyland-Sims Oxidation reaction

Isaac Hall
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Abstract

The Boyland-Sims Oxidation reaction uses an alkaline solution of peroxydisulfate salt to convert arylamines to o-aminophenols. The long-standing mechanism involves a nucleophilic attack by the amine leading to the formation of an arylhydroxylamine-O-sulfonate intermediate, which then rearranges to the arylamine o-sulfate. The long-standing mechanism of a nucleophilic attack by the amine on peroxide oxygen has been questioned by Marjanović et al. who have proposed a nitrenium ion intermediate as the reactive species rather than the uncharged amine. It has been challenged by a variety of experimental observations. We present here new computations at a high-level of density functional theory (B3LYP/6-311++G**) to model both arylhydroxylamine-O-sulfonate and nitrenium ion pathways in a series of aromatic amines. In this study, the energetics of reaction intermediates in both mechanisms are computed for aniline, 2,4-dinitroaniline, and N,N-dimethylaniline. To further support the pathways of the reaction, the calculations were performed to find the transition states involved in both mechanisms. The transition state calculations revealed two possible energetically feasible pathways for the rearrangement of arylhydroxylamine-O-sulfonate to arylamine o-sulfate. Our results indicate that the Boyland-Sims oxidation reactions proceed via arylhydroxylamine-O-sulfonate intermediate as predicted earlier.
Boyland-Sims氧化反应过渡态和中间体结构的计算见解
Boyland-Sims氧化反应使用过硫酸氢盐的碱性溶液将芳胺转化为邻氨基酚。长期存在的机制涉及胺的亲核攻击,导致形成芳基羟胺-邻磺酸盐中间体,然后重新排列成芳基胺-邻硫酸酯。marjanoviki等人对胺对过氧的亲核攻击的长期机制提出了质疑,他们提出了一种氮离子中间体而不是不带电的胺作为反应物质。它受到了各种实验观察的挑战。在这里,我们提出了一个新的计算方法,在高密度泛函理论(B3LYP/6-311++G**)的高层次上模拟芳基羟胺-邻磺酸盐和氮离子在一系列芳香胺中的途径。本研究计算了苯胺、2,4-二硝基苯胺和N,N-二甲基苯胺两种反应机制中中间体的能量学。为了进一步支持反应的途径,进行了计算,以找到两种机制中涉及的过渡态。过渡态计算揭示了芳基羟胺-邻磺酸盐重排至邻硫酸芳胺的两种可能的能量可行途径。我们的结果表明,Boyland-Sims氧化反应通过芳基羟胺- o -磺酸盐中间体进行,正如之前预测的那样。
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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