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Volumn 156, Issue , 2015, Pages 36-38
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Reduced graphene oxide modified flower-like BiOCOOH architectures with enhanced photocatalytic activity
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Author keywords
Bismuth oxide formate; Composite materials; Optical materials and properties; Reduced graphene oxide; Semiconductors
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Indexed keywords
COMPLEXATION;
COMPOSITE FILMS;
COMPOSITE MATERIALS;
DEGRADATION;
ENERGY GAP;
MATERIALS PROPERTIES;
PHOTOCATALYSIS;
SEMICONDUCTOR MATERIALS;
BISMUTH OXIDES;
INTERFACIAL HYBRIDIZATION;
OPTICAL MATERIALS AND PROPERTIES;
PHOTO CATALYTIC DEGRADATION;
PHOTOCATALYTIC ACTIVITIES;
PHOTOGENERATED ELECTRONS;
REDUCED GRAPHENE OXIDES;
SOLVOTHERMAL APPROACH;
GRAPHENE;
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EID: 84929317092
PISSN: 0167577X
EISSN: 18734979
Source Type: Journal
DOI: 10.1016/j.matlet.2015.04.135 Document Type: Article |
Times cited : (20)
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References (11)
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