Nanopatterning of Vapor-deposited Aminosilane Film using EB Lithography for Ferritin Protein Adsorption
スポンサーリンク
概要
著者
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YOSHII Shigeo
Advanced Technology Research Laboratories, Matsushita Electric Industrial Co., Ltd.
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YAMADA Kiyohito
Advanced Technology Research Laboratories, Matsushita Electric Industrial Co., Ltd.
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YAMADA Kiyohito
Graduate School of Materials Science, Nara Institute of Science and Technology
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Kumagai Shinya
Advanced Technology Research Laboratories Panasonic Corporation
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Yoshii Shigeo
Advanced Technology Research Laboratories Panasonic Corporation
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Yamada Kiyohito
Graduate School Of Materials Science Nara Institute Of Science And Technology
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Yamada Kiyohito
Advanced Technology Research Laboratories Matsushita Electric Industrial Co. Ltd.
関連論文
- Reduction of a Ferritin Core Embedded in Silicon Oxide Film for An Application to Floating Gate Memory
- Electrostatic Placement of Nanodots onto Silicon Substrate Using Ferritin Protein Supramolecules with Control of Electrostatic Interaction in Solution
- Floating Nanodot Gate Memory Devices Based on Biomineralized Inorganic Nanodot Array as a Storage Node
- Adsorption Properties of a Gold-Binding Peptide Assessed by its Attachment to a Recombinant Apoferritin Molecule
- Floating Gate MOS Capacitor with High-Density Nanodots Array Produced by Protein Supramolecule
- High-Density Floating Nanodots Memory Produced by Cage-Shaped Protein
- Making Monolayer of Inorganic Nanoparticles on Silicon Substrate
- Nanopatterning of Vapor-deposited Aminosilane Film using EB Lithography for Ferritin Protein Adsorption
- Position-Controlled Vertical Growths of Individual Carbon Nanotubes Using a Cage-Shaped Protein
- Floating Gate Metal–Oxide–Semiconductor Capacitor Employing Array of High-Density Nanodots Produced by Protein Supramolecule
- High-Density and Highly Surface Selective Adsorption of Protein–Nanoparticle Complexes by Controlling Electrostatic Interaction
- Effects of Dot Density and Dot Size on Charge Injection Characteristics in Nanodot Array Produced by Protein Supramolecules
- Electrostatic Placement of Nanodots onto Silicon Substrate Using Ferritin Protein Supramolecules with Control of Electrostatic Interaction in Solution