Issue 37, 2023

Non-noble-metal TiC-nanoparticle-promoted charge separation and photocatalytic degradation performance on Bi2O3 microrods: degradation pathway and mechanism investigation

Abstract

In the present work, a promising binary TiC/Bi2O3 photocatalyst was obtained via a simple hydrothermal route. In the photodegradation experiment of acid orange 7 (AO7) and tetracycline (TC) irradiated by simulated sunlight, the attachment of TiC nanoparticles on the Bi2O3 microrods leads to an obvious improvement in the photocatalytic removal properties of the Bi2O3 microrods. The optimal removal efficiency of AO7 was achieved by the 7.5%TiC/Bi2O3 sample, which results in about 91.5% dye removal within 75 min of reaction. Meanwhile, the 7.5%TiC/Bi2O3 sample also exhibits favorable photodegradation performance for the degradation of TC, leading to about ∼76.9% TC being degraded after 75 min of irradiation. More importantly, the degradation pathways of AO7 and toxicity analysis of the intermediate products were performed based on liquid chromatography–mass spectrometry detection and theoretical simulation. The superior photocatalytic behavior of the TiC/Bi2O3 composite is attributed to the effective separation and migration of photoexcited electrons and holes in the heterojunction, where the TiC nanoparticles act as an acceptor of photoexcited electrons.

Graphical abstract: Non-noble-metal TiC-nanoparticle-promoted charge separation and photocatalytic degradation performance on Bi2O3 microrods: degradation pathway and mechanism investigation

Supplementary files

Article information

Article type
Paper
Submitted
05 Aug 2023
Accepted
05 Sep 2023
First published
07 Sep 2023

Phys. Chem. Chem. Phys., 2023,25, 25214-25228

Non-noble-metal TiC-nanoparticle-promoted charge separation and photocatalytic degradation performance on Bi2O3 microrods: degradation pathway and mechanism investigation

T. Xian, K. Ma, L. Di, X. Ma, X. Sun and H. Yang, Phys. Chem. Chem. Phys., 2023, 25, 25214 DOI: 10.1039/D3CP03740A

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