Synthesis of hierarchical SnO2 nanoflowers and their high gas-sensing properties

Materials Letters

Volumn 143, Issue , 2015, Pages 283-286

  Jin, W X ^a   Ma, S Y ^a   Sun, A M ^a   Luo, J ^a   Cheng, L ^a   Li, W Q ^a   Tie, Z Z ^a   Jiang, X H ^a   Wang, T T ^a  

^a NORTHWEST NORMAL UNIVERSITY   (China)

Author keywords

Hydrothermal; Mechanism; Microstructure; Semiconductors; Sensors

Indexed keywords

ACETONE; CHEMICAL SENSORS; GAS DETECTORS; IONIC LIQUIDS; MECHANISMS; MICROSTRUCTURE; SEMICONDUCTOR MATERIALS; SENSORS; SODIUM;

APPLICATION PROSPECT; FAST RESPONSE TIME; FORMATION MECHANISM; GAS SENSING PROPERTIES; HYDROTHERMAL; HYDROTHERMAL METHODS; OPERATING TEMPERATURE; POLYVINYL PYRROLIDONE;

NANOFLOWERS;

EID: 84921418659     PISSN: 0167577X     EISSN: 18734979     Source Type: Journal    
DOI: 10.1016/j.matlet.2014.12.137     Document Type: Article

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