KIM Donghyun | Department of Chemistry, Hanyang University
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概要
関連著者
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Kim Donghyun
Department Of Electrical Engineering And Computer Science Korea Advanced Institute Of Science And Te
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KIM Donghyun
Department of Chemistry, Hanyang University
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JEONG Jaewook
Department of Electrical Engineering and Computer Science, Seoul National University
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Kim Donghyun
Department Of Electrical Engineering And Computer Science Seoul National University
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Jeong Jaewook
Department Of Electrical Engineering And Computer Science Seoul National University
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Hong Yongtaek
Department Of Electrical Engineering And Computer Science Seoul National University
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Kim Lee-sup
Department Of Electrical Engineering And Computer Science Korea Advanced Instituteof Science And Tec
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Kim Lee-sup
Department Of Eecs Kaist
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Nishi Yoshio
Department Of Applied Physics Faculty Of Engineering Osaka City University
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SOHN Daewon
Department of Chemistry, Hanyang University
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SARASWAT Krishna
Department of Electrical Engineering, Stanford University
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Jungemann Christoph
University Of The Armed Forces
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Kim Donghyun
Department Of Electrical Engineering And Computer Science Korea Advanced Instituteof Science And Tec
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Kim Donghyun
Department Of Electrical Engineering Stanford University
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Krishnamohan Tejas
Department Of Electrical Engineering Stanford University
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Sohn Daewon
Department Of Chemistry And Research Institute For Natural Sciences Hanyang University
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Saraswat Krishna
Department Of Electrical Engineering Stanford University
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LEE Hoik
Department of Chemistry, Hanyang University
著作論文
- Evaluating Strained/Relaxed-Ge, Strained-Si, Strained-SiGe For Future Nanoscale p-MOSFETs
- An Efficient Fragment Processing Technique in A-Buffer Implementation (Computer Graphics)
- Vertical Organic Field Effect Transistors with an Additional Gate Insulation Structure between Active Layer and Gate Electrode(Session 3A : Emerging Device Technology 2)
- Vertical Organic Field Effect Transistors with an Additional Gate Insulation Structure between Active Layer and Gate Electrode(Session 3A : Emerging Device Technology 2)
- Direct Polymerization of Poly(acrylic acid) on a Silicon-wafer Surface