降级(电信)
光催化
化学
氧气
光化学
可见光谱
化学工程
材料科学
组合化学
催化作用
光电子学
计算机科学
有机化学
电信
工程类
作者
Lingli Tu,Yiyuan Rong,Zebin Yu,Shuo Chen,Jiangli Sun,Zhihong Li,Jialu Li,Yanping Hou
出处
期刊:Chemosphere
[Elsevier]
日期:2022-05-01
卷期号:295: 133787-133787
被引量:11
标识
DOI:10.1016/j.chemosphere.2022.133787
摘要
Efficient photoelectrodes are highly desired in bio-photoelectrochemical systems (BPES). Herein, in this paper, the oxygen defect-rich BiVO4/Ni9S8 photoanode was developed and coupled with a biocathode for enhanced chlortertracycline (CTC) degradation and current generation in the self-biased BPES. Characterization results showed that the optimized BiVO4/Ni9S8-7 mg-150 °C NF exhibited the best photocatalytic activity, due to that the rich oxygen vacancies and Ni9S8 could significantly improve light absorption, enhance photo-generated carriers separation, and accelerate charges transfer. CTC (20 mg L-1) removal efficiency from the BPES was about 1.3 times (82.3% vs 64.7%) of that from the unilluminated reactor, and current output (0.68 A m-3) was about 7.6 times (0.09 A m-3). The dominant species in genus level was Geobacter, which is capable of reducing nitroaromatics and in favor of reductive dehalogenation of CTC. Besides, Comamonas and Rhodopseudomonas that are capable of degrading antibiotics were also detected. Possible degradation pathways and mechanism of CTC degradation in the BPES were proposed. This research advances the development of photoelectrode materials for light-driven BPESs and enriches antibiotics degradation mechanism.
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