Kinetics of Dimethylsulfoxide Electrooxidation on a Platinum Electrode in Sulfuric-Acid and Alkaline Solutions

IF 1.1 4区 工程技术 Q4 ELECTROCHEMISTRY Russian Journal of Electrochemistry Pub Date : 2024-08-07 DOI:10.1134/S102319352470023X
K. O. Ibragimova, Sh. Sh. Khidirov, S. I. Suleymanov
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Abstract

Electrochemical study of the mechanism of dimethylsulfoxide electrooxidation on a platinum electrode in acidic and alkaline solutions is carried out. On the stationary anodic polarization curves taken in acidic and alkaline dimethylsulfoxide solutions, the oxidation currents preceded those measured in the supporting electrolyte. By the analyzing of linear segments of anodic voltammograms, the coefficients of the Tafel equation are determined. This allowed choosing the current density range and conditions for the dimethylsulfoxide electrooxidation on the platinum electrode. The electrolysis was carried out at controlled current density in electrolyzers both with unseparated compartments and the anodic and cathodic compartments separated with MK-40, MA-40 membranes and a MF-4SK fluoropolymer sulfocationite membrane. The high electrical conductivity and selectivity of the membranes provided good performance of the electrolysis process and obtaining of high-purity final product. Raman spectroscopy and gas chromatography–mass spectrometry confirmed that the products of dimethylsulfoxide electrooxidation in the acidic solution are dimethylsulfone and dimethylsulfoxide; in alkaline solution, the dimethyl sulfone and sodium methanesulfonate. The method of quantum-chemical calculations showed good adsorption of dimethylsulfoxide molecules at platinum within the frames of the cluster model. It is shown that the dimethylsulfoxide formation at the platinum electrode surface at high current densities occurs by the radical-ion mechanism, involving breaking of the C–S bond. Based on the experimental results obtained, a scheme for the dimethylsulfoxide electrochemical oxidation at platinum is proposed.

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铂电极在硫酸和碱性溶液中的二甲基亚砜电氧化动力学
摘要 对二甲基亚砜在酸性和碱性溶液中在铂电极上的电氧化机理进行了电化学研究。在酸性和碱性二甲基亚砜溶液中测得的静止阳极极化曲线上,氧化电流先于在支持电解质中测得的氧化电流。通过分析阳极伏安图的线性段,可以确定塔菲尔方程的系数。这样就可以选择二甲基亚砜在铂电极上电解氧化的电流密度范围和条件。电解是在电流密度可控的电解槽中进行的,电解槽既有未分离的隔室,也有用 MK-40、MA-40 膜和 MF-4SK 亚硫酸氟聚合物膜分离的阳极和阴极隔室。膜的高导电性和选择性为电解过程提供了良好的性能,并获得了高纯度的最终产品。拉曼光谱和气相色谱-质谱法证实,二甲基亚砜在酸性溶液中的电氧化产物是二甲基砜和二甲基亚砜;在碱性溶液中的电氧化产物是二甲基砜和甲烷磺酸钠。量子化学计算方法表明,在簇模型的框架内,二甲基亚砜分子在铂上有良好的吸附性。研究表明,在高电流密度下,二甲基亚砜在铂电极表面的形成是通过自由基-离子机制发生的,其中涉及 C-S 键的断裂。根据获得的实验结果,提出了二甲基亚砜在铂上电化学氧化的方案。
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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来源期刊
Russian Journal of Electrochemistry
Russian Journal of Electrochemistry 工程技术-电化学
CiteScore
1.90
自引率
8.30%
发文量
102
审稿时长
6 months
期刊介绍: Russian Journal of Electrochemistry is a journal that covers all aspects of research in modern electrochemistry. The journal welcomes submissions in English or Russian regardless of country and nationality of authors.
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