Issue 28, 2024, Issue in Progress

Development of spray pyrolysis-synthesised Bi2O3 thin films for photocatalytic applications

Abstract

Photocatalysis is a green and cost-effective approach to environmental remediation. While TiO2 is considered one of the benchmark photocatalysts, alternative materials such as Bi2O3 have recently attracted increasing scientific attention as prospective visible light photocatalysts. This study aimed to develop a strategy for Bi2O3 thin film deposition via ultrasonic spray pyrolysis and systematically study process variables for the deposition of β-Bi2O3 thin films for photocatalytic applications. To achieve the aim, the precursor solution concentration as well as deposition and annealing temperature were optimised. The structural, optical, morphological, chemical and wettability properties of the obtained Bi2O3 thin films were investigated with respect to the effect on the photocatalytic oxidation of 10 ppm methyl orange (MO). The highest photocatalytic activity (48% in 5 h) under UV-A was recorded for the β-Bi2O3 film deposited using 0.1 M precursor solution at 300 °C and heat-treated for 1 h in air at 350 °C. Deposition at 300 °C resulted in an amorphous film structure, whereas annealing at 350 °C led to the formation of the β-Bi2O3 phase with the dominant facet orientation (220). These results show the suitability of spray pyrolysis for the deposition of Bi2O3 thin films with promising results for MO dye degradation, expanding the range of suitable photocatalytic materials.

Graphical abstract: Development of spray pyrolysis-synthesised Bi2O3 thin films for photocatalytic applications

Supplementary files

Article information

Article type
Paper
Submitted
19 Apr 2024
Accepted
04 Jun 2024
First published
18 Jun 2024
This article is Open Access
Creative Commons BY-NC license

RSC Adv., 2024,14, 19648-19657

Development of spray pyrolysis-synthesised Bi2O3 thin films for photocatalytic applications

J. Sydorenko, M. Krunks, A. Katerski, R. Grzibovskis, A. Vembris, A. Mere, N. Spalatu and I. O. Acik, RSC Adv., 2024, 14, 19648 DOI: 10.1039/D4RA02907K

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