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Volumn 46, Issue 4, 2009, Pages 429-435
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Microstructure and CO gas sensing properties of Ag-CuO-SnO2 thin films prepared by co-evaporation and thermal oxidation
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Author keywords
Catalyst; CO gas sensor; Co evaporation; SnO2; Thermal oxidation
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Indexed keywords
AG FILMS;
AIR ATMOSPHERE;
AVERAGE PARTICLE SIZE;
CO GAS SENSOR;
CO SENSITIVITY;
CO-EVAPORATIONS;
ENHANCED SENSITIVITY;
GAS SENSING PROPERTIES;
MAXIMUM SENSITIVITY;
OXIDE GAS;
POROUS MICROSTRUCTURE;
RECOVERY TIME;
RESPONSE TIME;
SNO2;
THERMAL OXIDATION;
THERMALLY OXIDIZED;
CATALYSIS;
CATALYSTS;
COPPER;
COPPER OXIDES;
ENHANCED RECOVERY;
FILM PREPARATION;
GAS DETECTORS;
GAS SENSING ELECTRODES;
MICROSTRUCTURE;
OXIDATION;
OXIDE FILMS;
SENSORS;
THERMAL EVAPORATION;
THIN FILMS;
TIN;
VAPORS;
SILVER;
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EID: 72149092373
PISSN: 12297801
EISSN: None
Source Type: Journal
DOI: 10.4191/KCERS.2009.46.4.429 Document Type: Article |
Times cited : (1)
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References (20)
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