Enhanced Photocatalytic Activity of CdS-Decorated TiO₂/Carbon Core-Shell Microspheres Derived from Microcrystalline Cellulose

The fabrication of reusable and biodegradation materials from renewable resources such as cellulose is essential for a sustainable world. The core-shell structured CdS-decorated TiO₂/Carbon microspheres (CdS/TiO₂/Carbon MS) photocatalyst was synthesized with controlled hydrolysis and a novel sonoche...

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Published in	Materials Vol. 9; no. 4; p. 245
Main Authors	Liu, Xin, Li, Yinliang, Yang, Jun, Wang, Bo, Ma, Mingguo, Xu, Feng, Sun, Runcang, Zhang, Xueming
Format	Journal Article
Language	English
Published	Switzerland MDPI AG 29.03.2016 MDPI
Subjects	Biocompatibility Carbon Catalytic activity Cellulose environmental degradation functional composites Microscopy Microspheres Morphology Photocatalysis Pollutants Polymers Reusable Sustainability Titanium Titanium dioxide Toxicity Beijing China China titanium dioxide photocatalysis cellulose functional composites environmental degradation
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Abstract	The fabrication of reusable and biodegradation materials from renewable resources such as cellulose is essential for a sustainable world. The core-shell structured CdS-decorated TiO₂/Carbon microspheres (CdS/TiO₂/Carbon MS) photocatalyst was synthesized with controlled hydrolysis and a novel sonochemical method. It was prepared by using crosslinked microcrystalline cellulose as the core, tetrabutyl titanate as the titania source and CdS as the photosensitizer. The morphology, chemical structure and properties of the obtained material were characterized by many means. Additionally, the photocatalytic activity of the CdS/TiO₂/Carbon MS was evaluated by the photodegradation efficiency of Rhodamine B solution, which reached 95.24% under visible light irradiation. This study demonstrated the excellent photocatalytic performance of CdS/TiO₂/Carbon MS, which might have promising applications in environmental treatments.
AbstractList	The fabrication of reusable and biodegradation materials from renewable resources such as cellulose is essential for a sustainable world. The core-shell structured CdS-decorated TiO2/Carbon microspheres (CdS/TiO2/Carbon MS) photocatalyst was synthesized with controlled hydrolysis and a novel sonochemical method. It was prepared by using crosslinked microcrystalline cellulose as the core, tetrabutyl titanate as the titania source and CdS as the photosensitizer. The morphology, chemical structure and properties of the obtained material were characterized by many means. Additionally, the photocatalytic activity of the CdS/TiO2/Carbon MS was evaluated by the photodegradation efficiency of Rhodamine B solution, which reached 95.24% under visible light irradiation. This study demonstrated the excellent photocatalytic performance of CdS/TiO2/Carbon MS, which might have promising applications in environmental treatments. The fabrication of reusable and biodegradation materials from renewable resources such as cellulose is essential for a sustainable world. The core-shell structured CdS-decorated TiO₂/Carbon microspheres (CdS/TiO₂/Carbon MS) photocatalyst was synthesized with controlled hydrolysis and a novel sonochemical method. It was prepared by using crosslinked microcrystalline cellulose as the core, tetrabutyl titanate as the titania source and CdS as the photosensitizer. The morphology, chemical structure and properties of the obtained material were characterized by many means. Additionally, the photocatalytic activity of the CdS/TiO₂/Carbon MS was evaluated by the photodegradation efficiency of Rhodamine B solution, which reached 95.24% under visible light irradiation. This study demonstrated the excellent photocatalytic performance of CdS/TiO₂/Carbon MS, which might have promising applications in environmental treatments. The fabrication of reusable and biodegradation materials from renewable resources such as cellulose is essential for a sustainable world. The core-shell structured CdS-decorated TiO 2 /Carbon microspheres (CdS/TiO 2 /Carbon MS) photocatalyst was synthesized with controlled hydrolysis and a novel sonochemical method. It was prepared by using crosslinked microcrystalline cellulose as the core, tetrabutyl titanate as the titania source and CdS as the photosensitizer. The morphology, chemical structure and properties of the obtained material were characterized by many means. Additionally, the photocatalytic activity of the CdS/TiO 2 /Carbon MS was evaluated by the photodegradation efficiency of Rhodamine B solution, which reached 95.24% under visible light irradiation. This study demonstrated the excellent photocatalytic performance of CdS/TiO 2 /Carbon MS, which might have promising applications in environmental treatments.
Author	Wang, Bo Xu, Feng Ma, Mingguo Li, Yinliang Yang, Jun Zhang, Xueming Sun, Runcang Liu, Xin
AuthorAffiliation	1 Beijing Key Laboratory of Lignocellulosic Chemistry, Beijing Forestry University, Beijing 100083, China; xin_liu@bjfu.edu.cn (X.L.); lylhappy@bjfu.edu.cn (Y.L.); yangjun11@bjfu.edu.cn (J.Y.); mzlwb@bjfu.edu.cn (B.W.); mg_ma@bjfu.edu.cn (M.M.); xfx315@bjfu.edu.cn (F.X.); rcsun3@bjfu.edu.cn (R.S.) 2 State Key Laboratory of Pulp and Paper Engineering, South China University of Technology, Guangzhou 510640, China
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SubjectTerms	Biocompatibility Carbon Catalytic activity Cellulose environmental degradation functional composites Microscopy Microspheres Morphology Photocatalysis Pollutants Polymers Reusable Sustainability Titanium Titanium dioxide Toxicity
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Title	Enhanced Photocatalytic Activity of CdS-Decorated TiO₂/Carbon Core-Shell Microspheres Derived from Microcrystalline Cellulose
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