Enormous shrinkage of carbon nanotubes by supersonic stress and low-acceleration electron beam irradiation

The authors demonstrated a new method for inducing enormous shrinkage in single-walled carbon nanotube bundles by applying low energy electron beam irradiation along with supersonic vibration, and a maximum shrinkage rate of −100% cm2/C was obtained under electron acceleration of 1 keV. The characte...

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Veröffentlicht in:	Journal of vacuum science & technology. B, Microelectronics and nanometer structures processing, measurement and phenomena Microelectronics and nanometer structures processing, measurement and phenomena, 2012-05, Vol.30 (3), p.03D105-03D105-5
Hauptverfasser:	Fujita, Jun-ichi, Takahashi, Teppei, Ueki, Ryuichi, Hikata, Takeshi, Okubo, Soichiro, Utsunomiya, Risa, Matsuba, Teruaki
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container_title	Journal of vacuum science & technology. B, Microelectronics and nanometer structures processing, measurement and phenomena
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creator	Fujita, Jun-ichi Takahashi, Teppei Ueki, Ryuichi Hikata, Takeshi Okubo, Soichiro Utsunomiya, Risa Matsuba, Teruaki
description	The authors demonstrated a new method for inducing enormous shrinkage in single-walled carbon nanotube bundles by applying low energy electron beam irradiation along with supersonic vibration, and a maximum shrinkage rate of −100% cm2/C was obtained under electron acceleration of 1 keV. The characteristic feature of the shrunken single-walled carbon nanotubes was a wavy deformation that affected the entire bundle. The authors believe that a uniaxial stress induced by the supersonic vibration broke the equilibrium of the internal stress and allowed the uniform accumulation of defects under low energy electron beam excitation. The wavy deformation of the single-walled carbon nanotubes resulted in the enormous shrinkage of the bundle.
doi_str_mv	10.1116/1.3694027
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title	Enormous shrinkage of carbon nanotubes by supersonic stress and low-acceleration electron beam irradiation
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