Nanotweezers consisting of carbon nanotubes operating in an atomic force microscope

Nanotweezers consisting of carbon nanotubes operating in an atomic force microscope

We have developed nanotweezers consisting of carbon nanotubes that will operate in an atomic force microscope. The two nanotubes were attached on the metal electrodes patterned on a conventional Si tip and their fixations were made by carbon deposition. These processes were made under the view of a...

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Veröffentlicht in:Applied physics letters 2001-09, Vol.79 (11), p.1691-1693
Hauptverfasser: Akita, Seiji, Nakayama, Yoshikazu, Mizooka, Syotaro, Takano, Yuichi, Okawa, Takashi, Miyatake, Yu, Yamanaka, Sigenori, Tsuji, Masashi, Nosaka, Toshikazu
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container_end_page 1693
container_issue 11
container_start_page 1691
container_title Applied physics letters
container_volume 79
creator Akita, Seiji
Nakayama, Yoshikazu
Mizooka, Syotaro
Takano, Yuichi
Okawa, Takashi
Miyatake, Yu
Yamanaka, Sigenori
Tsuji, Masashi
Nosaka, Toshikazu
description We have developed nanotweezers consisting of carbon nanotubes that will operate in an atomic force microscope. The two nanotubes were attached on the metal electrodes patterned on a conventional Si tip and their fixations were made by carbon deposition. These processes were made under the view of a scanning electron microscope. The application of a dc voltage to the two nanotube arms induces their movement to approach each other. The numerical simulation by taking into account the balance between the electrostatic attraction and the bending moment of the nanotubes well explains the motion of the nanotube arms.
doi_str_mv 10.1063/1.1403275
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title Nanotweezers consisting of carbon nanotubes operating in an atomic force microscope
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