Ice-templated synthesis of tungsten oxide nanosheets and their application in arsenite oxidation
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Title
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Ice-templated synthesis of tungsten oxide nanosheets and their application in arsenite oxidation
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Other Titles
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얼음템플릿을 이용한 산화텅스텐 나노시트합성 및 비소 산화에의 응용
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Authors
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Nguyen Anh Quoc Khuong
Kim, Kitae
안용윤
Kim Minsun
Kim Gonu
Lee Jeong Tae
Kim Soonhyun
Kim Jungwon
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Keywords
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As(III) oxidation; H2O2 activation; Hydroperoxyl radical; Ice particle template; WO3 nanosheet
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Issue Date
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2023
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Citation
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Nguyen Anh Quoc Khuong, et al. 2023. "Ice-templated synthesis of tungsten oxide nanosheets and their application in arsenite oxidation". SCIENCE OF THE TOTAL ENVIRONMENT, 865(161104): 1-11.
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Abstract
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Tungsten oxide (WO3) nanosheets were prepared as catalysts to activate hydrogen peroxide (H2O2) in arsenite (As(III)) oxidation. Ice particles were employed as templates to synthesize the WO3 nanosheets, enabling easy template removal via melting. Transmission electron microscopy and atomic force microscopy revealed that the obtained WO3 nano-sheets were plate-like, with lateral sizes ranging from dozens of nanometers to hundreds of nanometers and thick-nesses of <10 nm. Compared to that of the WO3 nanoparticle/H2O2 system, a higher efficiency of As(III) oxidation was observed in the WO3 nanosheet/H2O2 system. Electron spin resonance spectroscopy, radical quenching studies, and As(III) oxidation experiments under anoxic conditions suggested that the hydroperoxyl radical (HO2?) acted as the primary oxidant. The WO3 nanosheets possessed numerous surface hydroxyl groups and electrophilic metal cen-ters, enhancing the production of HO2 via H2O2 activation. Various anions commonly present in As(III)-contaminated water exhibited little effect on As(III) oxidation in the WO3 nanosheet/H2O2 system. The high oxidation efficiency was maintained by adding H2O2 when it was depleted, suggesting that the catalytic activity of the WO3 nanosheets did not deteriorate after multiple catalytic cycles.
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URI
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https://repository.kopri.re.kr/handle/201206/14721
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DOI
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http://dx.doi.org/10.1016/j.scitotenv.2022.161104
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Type
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Article
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Station
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해당사항없음
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Indexed
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SCIE
- Appears in Collections
- 2022-2022, Investigation of ice microstructure properties for developing low-temperature purification and environment/energy materials (22-22) / Kim, Kitae (PE22120)
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