Construction of SnS2-SnO2 heterojunctions decorated on graphene nanosheets with enhanced visible-light photocatalytic performance

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Huang, RutingShanghai Univ, Peoples R China (author)

Construction of SnS2-SnO2 heterojunctions decorated on graphene nanosheets with enhanced visible-light photocatalytic performance

Article/chapterEnglish2019

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INT UNION CRYSTALLOGRAPHY,2019
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LIBRIS-ID:oai:DiVA.org:liu-158809
https://urn.kb.se/resolve?urn=urn:nbn:se:liu:diva-158809URI
https://doi.org/10.1107/S2053229619006399DOI

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Language:English
Summary in:English

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Funding Agencies|National Natural Science Foundation of China [21601120, 21501119]; Science and Technology Commission of Shanghai Municipality [17ZR1410500, 19ZR1418100]; Key Natural Science Foundation of Anhui Provincial Education Commission [KJ2016A510]; Anhui Provincial Science Foundation for Excellent Youth Talents; Educational Quality and Innovation Project of Anhui Province [2015jyxm398]
Heterostructures formed by the growth of one kind of nanomaterial in/on another have attracted increasing attention due to their microstructural characteristics and potential applications. In this work, SnS2-SnO2 heterostructures were successfully prepared by a facile hydrothermal method. Due to the enhanced visible-light absorption and efficient separation of photogenerated holes and electrons, the SnS2-SnO2 heterostructures display excellent photocatalytic performance for the degradation of rhodamine (RhB) under visible-light irradiation. Additionally, it is found that the introduction of graphene into the heterostructures further improved photocatalytic activity and stability. In particular, the optimized SnS2-SnO2/graphene photocatalyst can degrade 97.1% of RhB within 60 min, which is about 1.38 times greater than that of SnS2-SnO2 heterostructures. This enhanced photocatalytic activity could be attributed to the high surface area and the excellent electron accepting and transporting properties of graphene, which served as an acceptor of the generated electrons to suppress charge recombination. These results provide a new insight for the design and development of hybrid photocatalysts.

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NATURVETENSKAP Kemi Annan kemi hsv//swe
NATURAL SCIENCES Chemical Sciences Other Chemistry Topics hsv//eng
tin oxide; heterojunction; photocatalysis; visible light; graphene; crystal structure

Added entries (persons, corporate bodies, meetings, titles ...)

Wu, ChenghaoShanghai Univ, Peoples R China (author)
Huang, ShoushuangShanghai Univ, Peoples R China (author)
Chen, DayongShanghai Univ, Peoples R China; Chizhou Univ, Peoples R China (author)
Zhang, QianShanghai Univ, Peoples R China (author)
Wang, QingShanghai Univ, Peoples R China (author)
Hu, Zhang-JunLinköpings universitet,Molekylär ytfysik och nanovetenskap,Tekniska fakulteten,Shanghai Univ, Peoples R China(Swepub:liu)zhahu14 (author)
Jiang, YongShanghai Univ, Peoples R China (author)
Zhao, BingShanghai Univ, Peoples R China (author)
Chen, ZhiwenShanghai Univ, Peoples R China (author)
Shanghai Univ, Peoples R ChinaShanghai Univ, Peoples R China; Chizhou Univ, Peoples R China (creator_code:org_t)

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In:ACTA CRYSTALLOGRAPHICA SECTION C-STRUCTURAL CHEMISTRY: INT UNION CRYSTALLOGRAPHY75, s. 812-8212053-2296

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By the author/editor: Huang, Ruting; Wu, Chenghao; Huang, Shoushuan ...; Chen, Dayong; Zhang, Qian; Wang, Qing; show more...; Hu, Zhang-Jun; Jiang, Yong; Zhao, Bing; Chen, Zhiwen; show less...

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NATURAL SCIENCES: NATURAL SCIENCES; and Chemical Science ...; and Other Chemistry ...

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By the university: Linköping University

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