期刊
ARABIAN JOURNAL OF CHEMISTRY
卷 14, 期 8, 页码 -出版社
ELSEVIER
DOI: 10.1016/j.arabjc.2021.103258
关键词
Biomass derived active carbon; TiO2; Sol-gel; Photocatalyst; Photo-reduction of chromium (VI)
资金
- Deanship of Scientific Research at Najran University, Saudi Arabia [NU/ESCI/17/011]
Efforts to create a novel visible light efficient photocatalyst using biomass derived active carbon modified TiO2 have shown successful results in reducing chromium (VI) to chromium (III) under visible light. The developed photocatalysts demonstrated enhanced photo-reduction efficiencies and recyclability, with promising potential for practical applications.
Creation of novel visible light efficient photocatalyst requires great effort and it is always a challenging task for scientific community. The present report demonstrates the designing of highly effective biomass derived active carbon (AC) modified TiO2 photocatalyst and its utilization towards the photocatalytic reduction of chromium (VI) to chromium (III) in presence of citric acid under visible light. The photocatalyst comprising of various wt% of AC doped m-TiO2 has been fabricated by straightforward sol-gel approach followed by a sonication technique. The fabricated photocatalysts composed of TiO2 nanoparticles (particles size in the range of 8-20 nm) are entangled with biomass derived AC nanosheets. FTIR analysis further confirmed the successful creation of hetro-structures between AC and TiO2. All hybrid nanostructures showed lower band gap value i.e. in the visible absorption spectral region. The developed photocatalysts were found to be significantly boosted towards the photo-reduction of chromium (VI) to chromium (III) with a photo reduction efficiency of 94.7% after 25 min of irradiation, compared to pure TiO2 which gave a conversion rate of 72.10%. The enhanced photocatalytic reduction efficiencies were related to the effectual separation of charge carriers i.e. electron and holes pairs as confirmed by the photoluminescence (PL) analysis. Besides this, the presence of citric acid in dichromate solution enhances the transformation rate due to its involvement in oxidation reaction, which helps in retardation of unacceptable re-oxidation process of Cr (III) to Cr (VI). Furthermore, the newly designed photocatalyst showed excellent recyclability and reusability. Achieved results and involved reaction mechanism have been thoroughly addressed and elucidated. (C) 2021 The Author. Published by Elsevier B.V. on behalf of King Saud University.
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