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6 results on '"Guizhong Jin"'

1. A Critical Review of Resistance and Oxidation Mechanisms of Sb-Oxidizing Bacteria for the Bioremediation of Sb(III) Pollution

Author

Renjian Deng, Yilin Chen, Xinpin Deng, Zhongjie Huang, Saijun Zhou, Bozhi Ren, Guizhong Jin, and Andrew Hursthouse

Subjects
Sb-oxidizing bacteria, antimony, Sb(III)-resistance, oxidation, mechanism, Microbiology, QR1-502
Abstract

Antimony (Sb) is a priority pollutant in many countries and regions due to its chronic toxicity and potential carcinogenicity. Elevated concentrations of Sb in the environmental originating from mining and other anthropogenic sources are of particular global concern, so the prevention and control of the source of pollution and environment remediation are urgent. It is widely accepted that indigenous microbes play an important role in Sb speciation, mobility, bioavailability, and fate in the natural environment. Especially, antimony-oxidizing bacteria can promote the release of antimony from ore deposits to the wider environment. However, it can also oxidize the more toxic antimonite [Sb(III)] to the less-toxic antimonate [Sb(V)], which is considered as a potentially environmentally friendly and efficient remediation technology for Sb pollution. Therefore, understanding its biological oxidation mechanism has great practical significance to protect environment and human health. This paper reviews studies of the isolation, identification, diversity, Sb(III) resistance mechanisms, Sb(III) oxidation characteristics and mechanism and potential application of Sb-oxidizing bacteria. The aim is to provide a theoretical basis and reference for the diversity and metabolic mechanism of Sb-oxidizing bacteria, the prevention and control of Sb pollution sources, and the application of environment treatment for Sb pollution.

Published
2021
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3. The catalytic aerial oxidation of As(III) in alkaline solution by Mn-loaded diatomite

Author

Yudong Yang, Zhongtang Zhang, Yuhu Li, Ruixiang Wang, Zhifeng Xu, Chengyong Jin, and Guizhong Jin

Subjects
Environmental Engineering, Manganese Compounds, Oxides, General Medicine, Management, Monitoring, Policy and Law, Waste Management and Disposal, Diatomaceous Earth, Oxidation-Reduction, Arsenic
Abstract

The oxidization of As(III) to As(V) is necessary for both the detoxification of arsenic and the removal of arsenic by solidification. In order to achieve high efficiency and low cost As(III) oxidation, a novel process of catalytic aerial oxidation of As(III) is proposed, using air as oxidant and Mn-loaded diatomite as a catalyst. Through systematic characterization of the reaction products, the catalytic oxidation reaction law of Mn-loaded diatomite for As(III) was found out, and its reaction mechanism was revealed. Results show that Mn-loaded diatomite achieved a good catalytic effect for aerial oxidation of As(III) and maintained high performance over multiple cycles of reuse, which was directly related to the structure of diatomite and the behavior of manganese. Under the conditions of a catalyst concentration of 20 g/L, an air flow rate of 0.3 m

Published
2022

4. Catalytic oxidation effect of MnSO

Author

Yuhu, Li, Yudong, Yang, Ruixiang, Wang, Zhifeng, Xu, Guizhong, Jin, and Chengyong, Jin

Subjects
Photoelectron Spectroscopy, Alkalies, Oxidation-Reduction, Catalysis, Arsenic
Abstract

The catalytic oxidation effect of MnSO

Published
2022

5. A Critical Review of Resistance and Oxidation Mechanisms of Sb-Oxidizing Bacteria for the Bioremediation of Sb(III) Pollution

Author

Huang Zhongjie, Bozhi Ren, Guizhong Jin, Xinping Deng, Saijun Zhou, Renjian Deng, Chen Yilin, and Andrew Hursthouse

Subjects
Microbiology (medical), Pollutant, Pollution, oxidation, Environmental remediation, antimony, media_common.quotation_subject, Antimonite, mechanism, chemistry.chemical_element, Review, Microbiology, Environmentally friendly, QR1-502, chemistry.chemical_compound, Bioremediation, chemistry, Antimony, Sb(III)-resistance, Environmental chemistry, Sb-oxidizing bacteria, Antimonate, media_common
Abstract

Antimony (Sb) is a priority pollutant in many countries and regions due to its chronic toxicity and potential carcinogenicity. Elevated concentrations of Sb in the environmental originating from mining and other anthropogenic sources are of particular global concern, so the prevention and control of the source of pollution and environment remediation are urgent. It is widely accepted that indigenous microbes play an important role in Sb speciation, mobility, bioavailability, and fate in the natural environment. Especially, antimony-oxidizing bacteria can promote the release of antimony from ore deposits to the wider environment. However, it can also oxidize the more toxic antimonite [Sb(III)] to the less-toxic antimonate [Sb(V)], which is considered as a potentially environmentally friendly and efficient remediation technology for Sb pollution. Therefore, understanding its biological oxidation mechanism has great practical significance to protect environment and human health. This paper reviews studies of the isolation, identification, diversity, Sb(III) resistance mechanisms, Sb(III) oxidation characteristics and mechanism and potential application of Sb-oxidizing bacteria. The aim is to provide a theoretical basis and reference for the diversity and metabolic mechanism of Sb-oxidizing bacteria, the prevention and control of Sb pollution sources, and the application of environment treatment for Sb pollution.

Published
2021

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