Publication | Closed Access
Piezoelectric Characterization of Individual Zinc Oxide Nanobelt Probed by Piezoresponse Force Microscope
720
Citations
24
References
2004
Year
Effective Piezoelectric CoefficientNanosensorsEngineeringMicroscopyMechanical EngineeringPiezoresponse Force MicroscopyPiezoelectric CharacterizationPiezoelectric MaterialPiezoresponse Force MicroscopeBiophysicsMaterials ScienceNanotechnologyPiezoelectricityNanomaterialsMicrofabricationPiezoelectric NanogeneratorsScanning Probe MicroscopyApplied PhysicsNano Electro Mechanical SystemScanning Force MicroscopyZno NanobeltMedicineMicromachined Ultrasonic Transducer
Piezoresponse force microscopy (PFM) is used to measure the effective piezoelectric coefficient (d33) of an individual (0001) surface dominated zinc oxide nanobelt lying on a conductive surface. Based on references of bulk (0001) ZnO and x-cut quartz, the effective piezoelectric coefficient d33 of ZnO nanobelt is found to be frequency dependent and varies from 14.3 pm/V to 26.7 pm/V, which is much larger than that of the bulk (0001) ZnO of 9.93 pm/V. The results support the application of ZnO nanobelts as nanosensors and nanoactuators.
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