Issue 35, 2022

Enhanced photocatalytic performance of carbon fiber paper supported TiO2 under the ultrasonic synergy effect

Abstract

In the present work, TiO2 rutile nanorods and anatase nanoflakes have been grown on carbon fiber paper (CFP) by the hydrothermal method. Their photoelectrochemical properties and photocatalytic performances have been investigated. The introduction of CFP is found to improve visible light absorption intensity and effective surface areas apparently, and also make TiO2 photocatalysts easier to recycle from aqueous waste. An ultrasonic field was employed during the process of photocatalysis. Sono-photocatalytic efficiency is found to be enhanced significantly in comparison with those of photocatalysis and sonocatalysis, which indicates a positive ultrasonic synergy effect. The scavenger experiments reveal that superoxide radicals (˙O2) and hydroxyl (˙OH) are the predominant active species during the dye degradation sono-photocatalytic process assisted by CFP-supported TiO2 catalysts. To investigate the ultrasonic synergy photocatalytic effect, the generated amount of reactive oxygen species (ROS) was detected and quantitatively evaluated under visible light, ultrasound, and the combined condition of visible light and ultrasound. As a result, the present work provides an efficient way to improve photocatalytic performance and to realize easy recovery of photocatalyst, which will be helpful for better design of advanced photocatalysts for practical applications.

Graphical abstract: Enhanced photocatalytic performance of carbon fiber paper supported TiO2 under the ultrasonic synergy effect

Supplementary files

Article information

Article type
Paper
Submitted
09 Jul 2022
Accepted
05 Aug 2022
First published
15 Aug 2022
This article is Open Access
Creative Commons BY license

RSC Adv., 2022,12, 22922-22930

Enhanced photocatalytic performance of carbon fiber paper supported TiO2 under the ultrasonic synergy effect

L. Zhang, J. Zhang, H. Sun, W. Xia, J. He and J. Han, RSC Adv., 2022, 12, 22922 DOI: 10.1039/D2RA04240A

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