Single-Electron Tunneling Behavior of Organic-Molecule-Based Electronic Device
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概要
- 論文の詳細を見る
We fabricated electronic devices utilizing chemically synthesized organic molecules and Au nanoparticles and studied their electrical transport properties at low temperature. The Au/Ti electrodes separated by 10–60 nm were fabricated by electron-beam lithography and double-angle shadow evaporation. A self-assembled monolayer (SAM) of the organic molecules was formed on top of the electrodes, which was then bridged with Au nanoparticles trapped by electrostatic trapping. All the devices with SAM exhibited symmetric but nonlinear current-voltage characteristics along with the periodic gate modulation curves at low temperature. Our experimental data suggested that Coulomb blockade of single-electron tunneling is a dominant transport mechanism in our devices.
- Published by the Japan Society of Applied Physics through the Institute of Pure and Applied Physicsの論文
- 2004-09-15
著者
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KIM Jinhee
Electron Devices Laboratory, Korea Research Institute of Standards and Science
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PARK Jong-Wan
Electronic Device Group, Korea Research Institute of Standards and Science
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WON Do-Jae
Korea Research Institute of Chemical Technology
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KANG Yongku
Korea Research Institute of Chemical Technology
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LEE Changjin
Korea Research Institute of Chemical Technology
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Kim Ju-jin
Department Of Physics Chonbuk National University
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So Hye-mi
Department Of Physics Chonbuk National University
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Yun Wan
Electronic Device Group Korea Research Institute Of Standards And Science
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Yun Wan
Electronic Device Group, Korea Research Institute of Standards and Science, Daejeon 305-340, Korea
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Park Jong-Wan
Electronic Device Group, Korea Research Institute of Standards and Science, Daejeon 305-340, Korea
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Kang Yongku
Korea Research Institute of Chemical Technology, Daejeon 305-342, Korea
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Kim Ju-Jin
Department of Physics, Chonbuk National University, Jeonju 561-756, Korea
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Won Do-Jae
Korea Research Institute of Chemical Technology, Daejeon 305-342, Korea
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Lee Changjin
Korea Research Institute of Chemical Technology, Daejeon 305-342, Korea
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So Hye-Mi
Department of Physics, Chonbuk National University, Jeonju 561-756, Korea
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Kim Jinhee
Electricity Group, Korea Research Institute of Standards and Science,Yusong-gu, Taejon, 305-600, Korea
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