酸性水溶液中碘离子还原乙二胺四乙酸铁酸盐(III)配合物的动力学研究

Asian Journal of Physical and Chemical Sciences Pub Date : 2019-08-28 DOI:10.9734/ajopacs/2019/v7i230091

I. U. Nkole, C. R. Osunkwo

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引用次数: 6

摘要

研究了碘离子在酸性水溶液中分光光度法还原乙二胺四乙酸铁酸盐(III)配合物(以下简称[Fe(III)EDTA]-)的动力学方法。在碘离子过量浓度为28±1，离子强度(I) = 0.43 coulomb2 mol dm-3 (KNO3)， [H+] = 5.0 10-2 mol dm-3的拟一级条件下进行研究。根据反应还原了[Fe(III)EDTA]-配合物;2[Fe(III)EDTA]- + 2I-→2[Fe(II)EDTA]2- + I2反应速率规律为- d[Fe(III)EDTA-]/dt = (a + b[H+])[Fe(III)EDTA-][I-]，在氧化剂和还原剂浓度下，反应速率均为一级，且表现出正的Brønsted-Debye盐效应。根据外加阳离子的催化作用、Michaelis-Menten图和中间体的缺失，提出了反应的外球电子转移机理。

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Kinetic Approach to the Reduction of Ethylenediaminetetraacetatoferrate(III) Complex by Iodide Ion in Aqueous Acidic Medium

The kinetic approach to the reduction of ethylenediaminetetraacetatoferrate(III) complex (hereafter [Fe(III)EDTA]-) by iodide ion has been studied spectrophotometrically in an aqueous acidic medium. The study was carried out under pseudo-first order conditions of an excess of iodide ion concentration at 28 ± 1, ionic strength (I) = 0.43 coulomb2 mol dm-3 (KNO3) and [H+] = 5.0 10-2 mol dm-3. The [Fe(III)EDTA]- complex was reduced according to the reaction; 2[Fe(III)EDTA]- + 2I- → 2[Fe(II)EDTA]2- + I2 The rate law is - d[Fe(III)EDTA-]/dt = (a + b[H+])[Fe(III)EDTA-][I-] The rate of the reaction is first order in oxidant and reductant concentrations, and displayed positive Brønsted-Debye salt effect. On the basis of catalysis by added cation, Michaelis-Menten plots and the absence of intermediates, the outer-sphere electron transfer mechanism is proposed for the reaction.

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Asian Journal of Physical and Chemical Sciences

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