Mechanical and electrical characterization of semiconducting ZnO nanorings by direct nano-manipulation

Mechanical and electrical characterization of semiconducting ZnO nanorings by direct nano-manipulation

With assistance from a nano-manipulator system inside a scanning electron microscope chamber, mechanical and electrical properties of ZnO nanorings were investigated. The change of a fractured nanoring to nearly straight nanobelts was strong evidence to support the previously proposed electrostatic-...

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Veröffentlicht in:Applied physics letters 2012-08, Vol.101 (8), p.81910
Hauptverfasser: Mai, Wenjie, Zhang, Long, Gu, Yudong, Huang, Shiqing, Zhang, Zongfu, Lao, Changshi, Yang, Peihua, Qiang, Pengfei, Chen, Zhongwei
Format: Artikel
Sprache:eng
Schlagworte:
Compressing
Fracture mechanics
Nanocomposites
Nanomaterials
Nanostructure
Scanning electron microscopy
Volt-ampere characteristics
Zinc oxide
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Zusammenfassung:With assistance from a nano-manipulator system inside a scanning electron microscope chamber, mechanical and electrical properties of ZnO nanorings were investigated. The change of a fractured nanoring to nearly straight nanobelts was strong evidence to support the previously proposed electrostatic-force-induced self-coiling model, and our computational simulation results indicated the fracture force was 25-30 mu N. The contact between a tungsten tip of the manipulator and a ZnO nanoring was confirmed as the Schottky type; therefore, the change of I-V curves of the nanoring under compression was attributed to the Schottky barrier height changes.
ISSN:0003-6951
1077-3118
DOI:10.1063/1.4747807