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Nanomeasurements in Transmission Electron Microscopy

Published online by Cambridge University Press:  29 January 2003

Z.L. Wang ,
P. Poncharal  and
W.A. de Heer
Z.L. Wang*
Affiliation:
School of Materials Science and Engineering, Georgia Institute of Technology, Atlanta, GA 30332-0245
P. Poncharal
Affiliation:
School of Physics, Georgia Institute of Technology, Atlanta, GA 30332-0245
W.A. de Heer
Affiliation:
School of Physics, Georgia Institute of Technology, Atlanta, GA 30332-0245
*
*Corresponding author
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Abstract

Nanomaterials have attracted a great deal of research interest recently. The small size of nanostructures constrains the applications of well-established testing and measurement techniques, thus new methods and approaches must be developed for quantitative measurement of the properties of individual nanostructures. This article reports our progress in using in situ transmission electron microscopy to measure the electrical, mechanical, and field-emission properties of individual carbon nanotubes whose microstructure is well-characterized. The bending modulus of a single carbon nanotube has been measured by an electric field-induced resonance effect. A nanobalance technique is demonstrated that can be applied to measure the mass of a tiny particle as light as 22 fg (1 fg = 10−15 g), the smallest balance in the world. Quantum conductance was observed in defect-free nanotubes, which led to the transport of a superhigh current density at room temperature without heat dissipation. Finally, the field-emission properties of a single carbon nanotube are observed, and the field-induced structural damage is reported.

Keywords

carbon nanotubesbending modulusballistic conductancenanobalanceelectron field emissionin situ transmission electron microscopy
Type
Research Article
Information
Microscopy and Microanalysis , Volume 6 , Issue 3 , May 2000 , pp. 224 - 230
Copyright
Copyright © Microscopy Society of America 2000

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