Lead-free NaNbO 3 nanowires for a high output piezoelectric nanogenerator

ACS Nano

Volumn 5, Issue 12, 2011, Pages 10041-10046

  Jung, Jong Hoon ^a,b   Lee, Minbaek ^a   Hong, Jung Il ^a   Ding, Yong ^a   Chen, Chih Yen ^a,c   Chou, Li Jen ^c   Wang, Zhong Lin ^a  

^a Georgia Institute of Technology   (United States)

^b Inha University   (South Korea)

^c NATIONAL TSING HUA UNIVERSITY   (Taiwan)

Author keywords

high output; lead free; NaNbO 3 nanowire; piezoelectric nanogenerator

Indexed keywords

COMPRESSIVE STRAIN; DIMETHYLSILOXANE; HIGH OUTPUT; HIGH QUALITY; HYDROTHERMAL METHODS; LEAD-FREE; LEAD-FREE PIEZOELECTRICS; LOW TEMPERATURES; OUTPUT CURRENT; OUTPUT VOLTAGES; PIEZOELECTRIC NANOGENERATOR; POLYMER COMPOSITE; ROOM TEMPERATURE;

COMPOSITE MATERIALS; CRYSTALLOGRAPHY; ELECTRIC FIELDS; MICROCHANNELS; NANOTECHNOLOGY; NANOWIRES; PEROVSKITE; PIEZOELECTRIC DEVICES; PIEZOELECTRICITY; POLYMER FILMS; POLYMERS; VIBRATIONS (MECHANICAL);

NANOCOMPOSITE FILMS;

LEAD; NANOMATERIAL; NIOBIUM; SODIUM; SODIUM NIOBATE;

ARTICLE; CHEMISTRY; EQUIPMENT; EQUIPMENT DESIGN; INSTRUMENTATION; MICROELECTROMECHANICAL SYSTEM; PARTICLE SIZE; POWER SUPPLY; ULTRASTRUCTURE;

ELECTRIC POWER SUPPLIES; EQUIPMENT DESIGN; EQUIPMENT FAILURE ANALYSIS; LEAD; MICRO-ELECTRICAL-MECHANICAL SYSTEMS; NANOSTRUCTURES; NIOBIUM; PARTICLE SIZE; SODIUM;

EID: 84555218597     PISSN: 19360851     EISSN: 1936086X     Source Type: Journal    
DOI: 10.1021/nn2039033     Document Type: Article

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