Formation of an iron-containing nanostructured surface of glassy carbon and verification of its catalytic properties

Proceedings of III All-Russian Scientific Conference with International Participation "Science, technology, society: Environmental engineering for sustainable development of territories" Pub Date : 1900-01-01 DOI:10.47813/nto.3.2022.6.366-373

P. Enders, E. A. Solovyov, S. Drobyshev, S. Minzanova, K. Kholin

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Abstract

Atmospheric pollution with carbon dioxide is a serious environmental threat to the climate of our planet. We can find a way to solve it using the method of electrochemical reduction of CO2. This article presents the research results during which data were obtained on the formation of an iron-containing nanostructured surface of a glassy carbon electrode using the methods of electrochemical deposition and scanning electron microscopy, during which it was concluded that the longer the pectate complex with iron is deposited on the surface of the working electrode, the greater number of particles formed on its surface. The catalytic properties of the PG-NaFe complex in water were also tested using cyclic voltammetry when the solution is saturated with carbon dioxide. It was experimentally proved that the iron-containing complex PG-NaFe exhibits catalytic activity for the carbon dioxide reduction reaction in the course of this research. Method for the deposition of a sodium pectate complex with iron on the surface of a glassy carbon electrode without the use of expensive components was proposed based on the analyzed data.

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含铁玻璃碳纳米结构表面的形成及其催化性能的验证

二氧化碳对大气的污染是对地球气候的严重威胁。我们可以利用电化学还原CO2的方法来解决这一问题。本文介绍了用电化学沉积法和扫描电镜法对玻碳电极含铁纳米结构表面形成的研究结果，结果表明:在工作电极表面沉积的含铁果胶配合物时间越长，其表面形成的颗粒数量越多。用循环伏安法测试了在二氧化碳饱和条件下，PG-NaFe配合物在水中的催化性能。实验证明，含铁配合物PG-NaFe对二氧化碳还原反应具有催化活性。在此基础上，提出了一种在玻碳电极表面沉积铁-果胶酸钠配合物的方法。

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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Proceedings of III All-Russian Scientific Conference with International Participation "Science, technology, society: Environmental engineering for sustainable development of territories"

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