SCOPUS 정보 검색 플랫폼

Volumn 9, Issue 12, 2009, Pages 3980-3984

Pd-Sensitized single vanadium oxide nanowires: Highly responsive hydrogen sensing based on the metal-insulator transition

(7) Baik, Jeong Min a,b Kim, Myung Hwa a,c Larson, Christopher a Yavuz, Cafer T a Stucky, Galen D a Wodtke, Alec M a Moskovits, Martin a

a UNIVERSITY OF CALIFORNIA (United States)

b Kumoh National Institute of Technology (South Korea)

c Ewha Womans University (South Korea)

Author keywords

[No Author keywords available]

Indexed keywords

ATOMIC HYDROGEN; CURRENT INCREASE; DISSOCIATIVE CHEMISORPTION; ELECTRON PHONON COUPLINGS; HIGH-SENSITIVITY; HYDROGEN GAS; HYDROGEN SENSOR; HYDROGEN-SENSING; INITIAL PROCESS; INSULATOR-TO-METAL TRANSITIONS; TRACE AMOUNTS; TWO TIME SCALE; VANADIUM DIOXIDE; VANADIUM OXIDES; VIBRATIONAL NORMAL MODES;

ADSORPTION; CHEMISORPTION; ELECTRIC WIRE; ELECTRONIC STRUCTURE; HYDROGEN; METAL INSULATOR BOUNDARIES; METALS; NANOWIRES; PALLADIUM; PHONONS; PHOTODISSOCIATION; SEMICONDUCTOR INSULATOR BOUNDARIES; SUPERCONDUCTING TRANSITION TEMPERATURE; TRACE ELEMENTS; VANADIUM; VANADIUM ALLOYS; VANADIUM COMPOUNDS;

METAL INSULATOR TRANSITION;

HYDROGEN; NANOTUBE; PALLADIUM; VANADIUM DERIVATIVE; VANADIUM PENTOXIDE;

ARTICLE; CHEMISTRY; CONFORMATION; CRYSTALLIZATION; ELECTRIC CONDUCTIVITY; ELECTRICITY; ELECTROCHEMISTRY; MACROMOLECULE; MATERIALS TESTING; METHODOLOGY; NANOTECHNOLOGY; PARTICLE SIZE; SURFACE PROPERTY; ULTRASTRUCTURE;

CRYSTALLIZATION; ELECTRIC CONDUCTIVITY; ELECTRIC WIRING; ELECTROCHEMISTRY; HYDROGEN; MACROMOLECULAR SUBSTANCES; MATERIALS TESTING; MOLECULAR CONFORMATION; NANOTECHNOLOGY; NANOTUBES; PALLADIUM; PARTICLE SIZE; SURFACE PROPERTIES; VANADIUM COMPOUNDS;

EID: 71949102050 PISSN: 15306984 EISSN: None Source Type: Journal
DOI: 10.1021/nl902020t Document Type: Article

Times cited : (118)

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