Engineering heterojunction of multi-morphologies and bifunctional hybrid rGO-V2O5 embedded CeO2 nanostructures for robust visible-light-driven dye degradation and supercapacitor

IF 5.5 3区工程技术 Q1 ENGINEERING, CHEMICAL

Journal of the Taiwan Institute of Chemical Engineers Pub Date : 2025-02-11 DOI:10.1016/j.jtice.2025.106002

Sahil S Magdum , Mrunal Bhosale , Gowthami Palanisamy , Karuppaiah Selvakumar , Sadhasivam Thangarasu , Tae Hwan Oh

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引用次数: 0

Abstract

Background

The photocatalytic degradation of organic pollutants utilizing advanced semiconductor materials has attracted significant attention for achieving pollutant-free water systems. Assessing the photocatalytic properties of materials for energy storage applications within the framework of designing a singular material capable of fulfilling multiple functions.

Methods

The fabrication of a ternary nanostructured heterojunction photocatalyst composed of rGO, V₂O₅, and CeO₂ developed through a facile solvothermal process. Systematic investigations of rGO-V₂O₅-CeO₂ (rG-V-C) photocatalysts were conducted by varying catalyst compositions, doses, and pH levels.

Significant Findings

The nanostructured rG-V-C enhances the surface properties of photocatalyst, which creates abundant active sites, and significantly facilitate charge carrier transfer for boosting dye degradation efficiency. The optimal rG-V-C-1 catalyst demonstrated remarkable photocatalytic performance, achieving 94.15 % rhodamine B (RhB) degradation under visible-light irradiation within 90 min. Scavenger tests indicated that generating O₂^•− and ^•OH radicals is the primary mechanism for enhanced RhB degradation. The excellent photocatalytic performance of rG-V-C composite is attributed to compelling synergy, which prevents photogenerated electron-hole recombination, and enhances charge separation and transfer. Furthermore, the rG-V-C composite showed efficient supercapacitor performances due to the existence of a synergetic effect via effective interaction between each compound in the composite structure (462 F/g at 1A g⁻¹ in a 1MLiClO₄-PC).

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来源期刊

Journal of the Taiwan Institute of Chemical Engineers 工程技术-工程：化工

CiteScore

9.10

自引率

14.00%

发文量

362

审稿时长

35 days

期刊介绍： Journal of the Taiwan Institute of Chemical Engineers (formerly known as Journal of the Chinese Institute of Chemical Engineers) publishes original works, from fundamental principles to practical applications, in the broad field of chemical engineering with special focus on three aspects: Chemical and Biomolecular Science and Technology, Energy and Environmental Science and Technology, and Materials Science and Technology. Authors should choose for their manuscript an appropriate aspect section and a few related classifications when submitting to the journal online.