4.6 Article

Simultaneous removal of Cr(vi) and TC over BiO1-XBr/CeVO4 S-scheme heterostructures: oxygen vacancy boosted charge separation and analysis of intermediates

期刊

ENVIRONMENTAL SCIENCE-NANO
卷 9, 期 9, 页码 3613-3628

出版社

ROYAL SOC CHEMISTRY
DOI: 10.1039/d2en00596d

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资金

  1. National Natural Science Foundation of China [22136002, 22172064]
  2. National Laboratory of Solid State Microstructures, Nanjing University [M34047]
  3. Wuxi Translational Medicine Center [2020ZHYB10]
  4. Project of Wuxi Science and Technology Development Fund [Y20212004]
  5. Qing Lan Project of Jiangsu Province

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In this study, oxygen vacancy-rich BiO1-XBr/CeVO4 composite photocatalysts were synthesized and showed enhanced photocatalytic activity for the simultaneous removal of Cr(VI) and TC in sewage. The increased charge trapping and light absorption capacity by oxygen vacancies, together with the strong redox capability and photoinduced charge separation ability in the S-scheme contributed to the improved catalytic performance of the composite photocatalysts.
The exploration of simultaneous photocatalytic removal of chromium (Cr(vi)) and tetracycline (TC) in sewage is still rare. Herein, oxygen vacancy (OV)-rich BiO1-XBr/CeVO4 (3 : 1) (3BOr-CeV) S-scheme composite dual-responsive photocatalysts were successfully synthesized. The photocatalytic degradation rate of TC over 3BOr-CeV was 4.90 times and 1.67 times higher than those over CeVO4 (CeV) and BiO1-XBr (BOr). Meanwhile, the reduction rate of Cr(vi) over 3BOr-CeV reached about 74.20 and 3.51 times compared with those over CeV and BOr. Interestingly, the synergistic photocatalytic activity of 3BOr-CeV was enhanced, and the reduction ability for Cr(vi) was increased by 2.03 times in the mixed system. Such gratifying catalytic activities were attributed to the enhanced charge trapping and light absorption capacity by OVs, together with the strong redox capability and streamlined photoinduced charge separation ability in the S-scheme. The pathway of TC degradation in complex solution systems was monitored by liquid chromatography-mass spectrometry (LC-MS). The DFT calculations, XPS, and PL indicated that the S-scheme heterojunction could promote the separation of charge carriers. In addition, EPR, UV-vis DRS, and finite element calculations demonstrated that the OVs could broaden the light absorption range and capture the charge carriers. This work provided a promising way to modulate the application of S-scheme heterojunction photocatalysts to degrade mixed wastewater.

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