Photoreduction properties of novel Z-scheme structured Sr 0.8 La 0.2 (Ti 1- δ 4+ Ti δ 3+ )O 3 /Bi 2 MoO 6 composites for the removal of Cr(vi)

Novel Z-scheme structured Sr La (Ti Ti )O /Bi MoO (LSTBM) composites were prepared a facile two-step solvothermal method. Several characterization techniques were employed to investigate the phases, microstructures, compositions, valence states, oxygen vacancies, surface oxygen absorption, energy ba...

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Published in:RSC advances 2021-04, Vol.11 (23), p.14007-14016
Main Authors: Liu, Bin, Fan, Zhili, Zhai, Wangjian, He, Junfeng, Wang, Shaofeng, Chen, Fuming, Wang, Yinzhen, Li, Wei, Hou, Xianhua, He, Qinyu
Format: Article
Language:English
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Summary:Novel Z-scheme structured Sr La (Ti Ti )O /Bi MoO (LSTBM) composites were prepared a facile two-step solvothermal method. Several characterization techniques were employed to investigate the phases, microstructures, compositions, valence states, oxygen vacancies, surface oxygen absorption, energy band structures and lifetime of photoproduced carriers. It was found that the lifetime and transfer of the photoproduced carriers of LSTBM were better than those of Bi MoO (BMO) and Sr La (Ti Ti )O (LSTO). The LSTBM with a molar ratio of BMO/(LSTO + BMO) = 0.07 (denoted as LSTBM7) showed 1.9 and 3.1 times removal rates than those for BMO and LSTO, respectively. Importantly, the built-in electric field in the heterojunction of LSTBM and O -s, especially in O -s on the higher-Fermi-level side of the heterojunction, had co-played roles in prolonging the lifetime and improving the transfer of photogenerated carriers. The photoproduced e played a dominant role in reducing Cr(vi) to Cr(iii) and the produced Cr(iii) tends to form Cr(OH) and adsorb onto the surface of the photocatalyst to decrease the nucleation energy. The possible reduction route for Cr(vi) to Cr(iii) over LSTBM7 was figured out. This study implies that inducing O -s on the higher-Fermi-level side of the Z-scheme heterojunction is a more effective route for separating the photogenerated electrons and holes and improving the transfer of photogenerated carriers.
ISSN:2046-2069
2046-2069
DOI:10.1039/d1ra01466h