Diffusion of Fe3+ Ions in Agar Gel Medium Containing Zinc Sulfate: Obstruction effect and Activation Energy

Journal of ISAS Pub Date : 2023-10-31 DOI:10.59143/isas.jisas.2.2.iawx1959

M. S. Gupte

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Abstract

The paper presents a study on the diffusion behaviour of ferric ions within an agar gel medium containing zinc sulfate electrolyte. Investigations for various aspects, including the obstruction effect introduced by the agar gel, the validation of Wang's diffusion model, and the suitability of applying transition state theory to the diffusion of Fe3+ ions in an agar gel medium with zinc sulfate were made. This investigation involved optimising the gel concentration, electrolyte concentration, and system temperature. The diffusion coefficients are determined by the zone diffusion technique. The results reveal that the activation energy (E) decreases as the electrolyte concentration increases, aligning with Wang's model. This decrease is attributed to the disruption of the water structure induced by ions and agar molecules. Additionally, for a fixed electrolyte concentration, the activation energy decreases with the cubic root of the weight percent of agar (W1/3), while the diffusion coefficient (Do) decreases with the square of the reciprocal of the weight percent of agar (W-2/3). This behaviour is consistent with the principles of the transition state theory of diffusion.

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Fe3+离子在含硫酸锌琼脂凝胶介质中的扩散:阻碍效应和活化能

本文研究了铁离子在含硫酸锌电解质的琼脂凝胶介质中的扩散行为。从琼脂凝胶引入的阻碍效应、Wang扩散模型的验证、过渡态理论应用于硫酸锌琼脂介质中Fe3+离子扩散的适用性等方面进行了研究。这项研究包括优化凝胶浓度、电解质浓度和系统温度。扩散系数由区域扩散法确定。结果表明，活化能(E)随着电解质浓度的增加而降低，与Wang的模型一致。这种减少是由于离子和琼脂分子引起的水结构的破坏。另外，当电解质浓度固定时，活化能随琼脂质量百分比(w - 1/3)的立方根而减小，扩散系数(Do)随琼脂质量百分比(W-2/3)的倒数的平方而减小。这种行为与扩散过渡态理论的原理是一致的。

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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Journal of ISAS

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