Presentation 2002/5/8
Fabrication of Organic Nano-SIT Using Conductive AFM Cantilevers
N Muraishi, M Nakamura, M Iizuka, K Kudo, K Tanaka,
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Abstract(in Japanese) (See Japanese page)
Abstract(in English) We have fabricated on organic static induction transistor (SIT) in nanometer scale using a LATEX spheres as a shadow mask against gate electrode deposition and using a conductive AFM cantilever as a source electrode. Fabrication condition of the gate electrodes having nanometer-sized apertures was established by optimizing the deposition condition of LATEX spheres. Transistor characteristics, such as modulation of I_ by V_G were confirmed with the nano-SIT obtained. It was also confirmed that not only the absolute value of the I_ but also the dependency of I_ on V_G was diminished as the AFM source electrode was displaced from the gate aperture. The cause of the results was discussed according to electrostatic simulations.
Keyword(in Japanese) (See Japanese page)
Keyword(in English) Static Induction Transistor / AFM / CuPc / LATEX Sphere
Paper # OME2002-15
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Committee OME
Conference Date 2002/5/8(1days)
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Paper Information
Registration To Organic Material Electronics (OME)
Language JPN
Title (in Japanese) (See Japanese page)
Sub Title (in Japanese) (See Japanese page)
Title (in English) Fabrication of Organic Nano-SIT Using Conductive AFM Cantilevers
Sub Title (in English)
Keyword(1) Static Induction Transistor
Keyword(2) AFM
Keyword(3) CuPc
Keyword(4) LATEX Sphere
1st Author's Name N Muraishi
1st Author's Affiliation Department of Electronics and Mechanical Engineering, Chiba University()
2nd Author's Name M Nakamura
2nd Author's Affiliation Department of Electronics and Mechanical Engineering, Chiba University
3rd Author's Name M Iizuka
3rd Author's Affiliation Department of Electronics and Mechanical Engineering, Chiba University
4th Author's Name K Kudo
4th Author's Affiliation Department of Electronics and Mechanical Engineering, Chiba University
5th Author's Name K Tanaka
5th Author's Affiliation Department of Electronics and Mechanical Engineering, Chiba University
Date 2002/5/8
Paper # OME2002-15
Volume (vol) vol.102
Number (no) 47
Page pp.pp.-
#Pages 5
Date of Issue