期刊
ENVIRONMENTAL POLLUTION
卷 293, 期 -, 页码 -出版社
ELSEVIER SCI LTD
DOI: 10.1016/j.envpol.2021.118519
关键词
Halogenated organic compounds; Organohalide-respiring bacteria; Biocathode; Extracellular electron transfer; Dehalogenation
资金
- Postdoctoral Science Foundation of China [2020M680866]
- National Natural Science Foundation of China [51922051, 21876090]
- Na-tional Natural Science Foundation of China Key Projects [22036004]
Halogenated organic compounds are persistent pollutants that pose a serious threat to human health and ecosystems. In-situ remediation using bioelectrochemical technology offers a promising strategy for their degradation through potential modulation. This review summarizes the reactor configuration, relevant bacteria, electrode potential regulation mechanisms, and the role of extracellular electron transfer in microbial dehalogenation, providing insights for efficient bioremediation techniques for contaminated sites.
Halogenated organic compounds are persistent pollutants, whose persistent contamination and rapid spread seriously threaten human health and the safety of ecosystems. It is difficult to remove them completely by traditional physicochemical techniques. In-situ remediation utilizing bioelectrochemical technology represents a promising strategy for degradation of halogenated organic compounds, which can be achieved through potential modulation. In this review, we summarize the reactor configuration of microbial electrochemical dehalogenation systems and relevant organohalide-respiring bacteria. We also highlight the mechanisms of electrode potential regulation of microbial dehalogenation and the role of extracellular electron transfer in dehalogenation process, and further discuss the application of bioelectrochemical technology in bioremediation of halogenated organic compounds. Therefore, this review summarizes the status of research on microbial electrochemical dehalogenation systems from macroscopic to microscopic levels, providing theoretical support for the development of rapid and efficient in situ bioremediation technologies for halogenated organic compounds contaminated sites, as well as insights for the removal of refractory fluorides.
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