Few Layered BiOBr with Expanded Interlayer Spacing and Oxygen Vacancies for Efficient Decomposition of Real Oil Field Produced Wastewater

Xian Shi; Pingquan Wang; Li Wang; Yang Bai; Haiquan Xie; Ying Zhou; Jin An Wang; Zhongjun Li; Lingbo Qu; Mingji Shi; Liqun Ye

doi:10.1021/acssuschemeng.8b01622

Few Layered BiOBr with Expanded Interlayer Spacing and Oxygen Vacancies for Efficient Decomposition of Real Oil Field Produced Wastewater

Xian Shi, Pingquan Wang, Li Wang, Yang Bai, Haiquan Xie, Ying Zhou, Jin An Wang, Zhongjun Li, Lingbo Qu, Mingji Shi, Liqun Ye

Producción científica: Contribución a una revista › Artículo › revisión exhaustiva

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Resumen

Previous reports have demonstrated that carrier and exciton photocatalysis processes all occur with BiOBr photocatalysts. The photocatalytic properties of BiOBr can be improved through optimizing any of these processes. Herein, few-layered BiOBr nanosheets with expanded interlayer spacing and oxygen vacancies have been synthesized in situ and applied for environmental remediation, specifically for oil field produced wastewater decomposition. The efficient photocatalytic activity of few-layered BiOBr is due to the synergistic effect of both enhanced exciton and carrier photocatalysis, which has been explored and explained by trapping experiments, electron spin resonance (ERS) test, and reactive oxygen species (ROS) quantification experiments. This work demonstrates a novel, green, and sustainable method for the decomposition of oil field produced wastewater.

Idioma original	Inglés
Páginas (desde-hasta)	13739-13746
Número de páginas	8
Publicación	ACS Sustainable Chemistry and Engineering
Volumen	6
N.º	11
DOI	https://doi.org/10.1021/acssuschemeng.8b01622
Estado	Publicada - 5 nov. 2018
Publicado de forma externa	Sí

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title = "Few Layered BiOBr with Expanded Interlayer Spacing and Oxygen Vacancies for Efficient Decomposition of Real Oil Field Produced Wastewater",

abstract = "Previous reports have demonstrated that carrier and exciton photocatalysis processes all occur with BiOBr photocatalysts. The photocatalytic properties of BiOBr can be improved through optimizing any of these processes. Herein, few-layered BiOBr nanosheets with expanded interlayer spacing and oxygen vacancies have been synthesized in situ and applied for environmental remediation, specifically for oil field produced wastewater decomposition. The efficient photocatalytic activity of few-layered BiOBr is due to the synergistic effect of both enhanced exciton and carrier photocatalysis, which has been explored and explained by trapping experiments, electron spin resonance (ERS) test, and reactive oxygen species (ROS) quantification experiments. This work demonstrates a novel, green, and sustainable method for the decomposition of oil field produced wastewater.",

keywords = "exciton and carrier photocatalysis, expanded interlayer spacing, few-layered BiOBr, oil field produced wastewater, oxygen vacancies",

author = "Xian Shi and Pingquan Wang and Li Wang and Yang Bai and Haiquan Xie and Ying Zhou and Wang, {Jin An} and Zhongjun Li and Lingbo Qu and Mingji Shi and Liqun Ye",

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doi = "10.1021/acssuschemeng.8b01622",

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AU - Shi, Xian

AU - Wang, Pingquan

AU - Wang, Li

AU - Bai, Yang

AU - Xie, Haiquan

AU - Zhou, Ying

AU - Wang, Jin An

AU - Li, Zhongjun

AU - Qu, Lingbo

AU - Shi, Mingji

AU - Ye, Liqun

PY - 2018/11/5

Y1 - 2018/11/5

N2 - Previous reports have demonstrated that carrier and exciton photocatalysis processes all occur with BiOBr photocatalysts. The photocatalytic properties of BiOBr can be improved through optimizing any of these processes. Herein, few-layered BiOBr nanosheets with expanded interlayer spacing and oxygen vacancies have been synthesized in situ and applied for environmental remediation, specifically for oil field produced wastewater decomposition. The efficient photocatalytic activity of few-layered BiOBr is due to the synergistic effect of both enhanced exciton and carrier photocatalysis, which has been explored and explained by trapping experiments, electron spin resonance (ERS) test, and reactive oxygen species (ROS) quantification experiments. This work demonstrates a novel, green, and sustainable method for the decomposition of oil field produced wastewater.

AB - Previous reports have demonstrated that carrier and exciton photocatalysis processes all occur with BiOBr photocatalysts. The photocatalytic properties of BiOBr can be improved through optimizing any of these processes. Herein, few-layered BiOBr nanosheets with expanded interlayer spacing and oxygen vacancies have been synthesized in situ and applied for environmental remediation, specifically for oil field produced wastewater decomposition. The efficient photocatalytic activity of few-layered BiOBr is due to the synergistic effect of both enhanced exciton and carrier photocatalysis, which has been explored and explained by trapping experiments, electron spin resonance (ERS) test, and reactive oxygen species (ROS) quantification experiments. This work demonstrates a novel, green, and sustainable method for the decomposition of oil field produced wastewater.

KW - exciton and carrier photocatalysis

KW - expanded interlayer spacing

KW - few-layered BiOBr

KW - oil field produced wastewater

KW - oxygen vacancies

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U2 - 10.1021/acssuschemeng.8b01622

DO - 10.1021/acssuschemeng.8b01622

M3 - Artículo

SN - 2168-0485

VL - 6

SP - 13739

EP - 13746

JO - ACS Sustainable Chemistry and Engineering

JF - ACS Sustainable Chemistry and Engineering

IS - 11

ER -

Few Layered BiOBr with Expanded Interlayer Spacing and Oxygen Vacancies for Efficient Decomposition of Real Oil Field Produced Wastewater

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