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J Hazard Mater


Title:The role of Fe(3)O(4)@biochar as electron shuttle in enhancing the biodegradation of gaseous para-xylene by aerobic surfactant secreted strains
Author(s):Wang Y; Wan S; Yu W; Yuan D; Sun L;
Address:"School of Chemical Engineering and Technology, Hainan University, Haikou 570228, China. School of Chemical Engineering and Technology, Hainan University, Haikou 570228, China; Key Laboratory of Advanced Materials of Tropical Island Resources, Ministry of Education, Haikou 570228, China; Key Laboratory of Solid Waste Resource Utilization and Environmental Protection of Haikou City, Haikou 570228, China. College of Ecology and Environment, Hainan University, Haikou 570228, China. School of Chemical Engineering and Technology, Hainan University, Haikou 570228, China; Key Laboratory of Advanced Materials of Tropical Island Resources, Ministry of Education, Haikou 570228, China; Key Laboratory of Solid Waste Resource Utilization and Environmental Protection of Haikou City, Haikou 570228, China. Electronic address: sunlei0620@163.com"
Journal Title:J Hazard Mater
Year:2022
Volume:20220630
Issue:
Page Number:129475 -
DOI: 10.1016/j.jhazmat.2022.129475
ISSN/ISBN:1873-3336 (Electronic) 0304-3894 (Linking)
Abstract:"To study the role of electron shuttles in accelerating the biodegradation of volatile organic compounds (VOCs) and provide theoretical support for purification of waste gas containing PX, two self-producing biosurfactant strains were used to improve solubility, and the magnetic Fe(3)O(4)@biochar composites were prepared as electron shuttles to accelerate extracellular electron transfer during the process of para-xylene (PX) biodegradation. The composites were characterized by scanning electron microscopy, X-ray diffraction, Fourier transform infrared spectroscopy, and X-ray photoelectron spectroscopy. The biodegradation time of PX by Enterobacter sp. HN01 and Klebsiella sp. HN02 decreased from 192 h to 12 h and 120 to 12 h, and approximately 93.75% and 90.00% of the removal times were saved after the addition of the composites. Furthermore, the effects of Fe(3)O(4)@biochar on the bacterial biosurfactant secretion, self-enzyme activity, and bacterial growth inhibition by PX were explored. The electron transport capacity of Fe(3)O(4)@biochar was 4.583 mmol.e(-)/g detected by mediated electrochemical reduction and mediated electrochemical oxidation, and possible electron transport pathways were revealed. The possible products of PX biodegradation by HN01 and HN02 were determined through gas chromatography-mass spectrometry. The molecular structure of PX was deduced through density functional theory calculation to validate the key product. Results indicated that Fe(3)O(4)@biochar can be used as an electronic shuttle to accelerate extracellular electron transfer and significantly improve VOCs removal rate"
Keywords:"Adsorption Charcoal/chemistry Electrons Gases/analysis *Surface-Active Agents *Water Pollutants, Chemical/chemistry Xylenes Biosurfactant Electron transfer capacity Hydrophobic VOCs Mechanism Redox mediator;"
Notes:"MedlineWang, Yan Wan, Shungang Yu, Weili Yuan, Dan Sun, Lei eng Research Support, Non-U.S. Gov't Netherlands 2022/07/06 J Hazard Mater. 2022 Sep 15; 438:129475. doi: 10.1016/j.jhazmat.2022.129475. Epub 2022 Jun 30"

 
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