Electron Transfer Reaction of Theobromine and Permanganate Ion in Aqueous Acidic Media

Asian Journal of Applied Chemistry Research Pub Date : 2023-04-15 DOI:10.9734/ajacr/2023/v13i2242

F. Jones, I. Anweting, I. E. Okon

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引用次数: 1

Abstract

Electron transfer reaction of theobromine (hereafter referred to as TB) and permanganate ion has been studied using spectrophotometric technique under pseudo first-order conditions at T = 24, [H+] = 3.2 × 10–1 mol dm–3and I = 1.0 mol dm–3 (Na2SO4). Stoichiometric study depicted that two moles of TB were consumed by one mole of permanganate ion. The rate of the reaction is first order in both [TB] and [MnO4-] and second order overall. It was observed that, [H+] and ionic strength respectively enhanced the rate of the reaction in the range studied. Michaelis-Mentens analysis showed no evidence of intermediate complex formation. Added anions and cations were observed to catalyze the reaction rate. The reaction conforms to the rate law as shown below: -d [MnO4-]/dt = (a+b [H+]) [TB] [MnO4-] where a = 0.041 dm3mol–1 s–1 and b= 0.028 dm3mol–1 s–1. The reaction thus occurs by an outer-sphere pathway and plausible mechanism is proposed for the reaction.

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可可碱与高锰酸盐离子在酸性水溶液中的电子转移反应

采用分光光度法研究了可可碱(以下简称TB)与高锰酸盐离子在T = 24， [H+] = 3.2 × 10-1 mol dm-3, I = 1.0 mol dm-3 (Na2SO4)的准一级条件下的电子转移反应。化学计量学研究表明，1摩尔高锰酸盐离子能消耗2摩尔TB。[TB]和[MnO4-]的反应速率都是一级反应，总的反应速率是二级反应。在研究范围内，[H+]和离子强度分别提高了反应速率。Michaelis-Mentens分析显示没有中间复杂地层的证据。观察了添加阴离子和阳离子对反应速率的催化作用。反应符合率法如下所示:- d (MnO4 -) / dt = (a + b (H +)) (MnO4(结核病) -] 一个= 0.041 dm3mol-1 s - 1和b = 0.028 dm3mol-1 s - 1。因此，该反应是通过外球途径发生的，并提出了合理的反应机理。

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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Asian Journal of Applied Chemistry Research

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