C-3 : 分子性薄膜の作製・評価・応用 - 高度な配向制御、配向解析、 および機能発現を目指して - C-3 : Fabrication, characterization and application of molecular thin films - structural analysis and control toward the realization of novel functions - |
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| Entry No | Presentation | Date | Award | Presenter Name | Affiliation | Paper Title | |||
Dec. 10 09:30 - 12:00 Place: 横浜情報文化センター/ Yokohama Media & Communications Center Core time: 9:30-11:30 |
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Chair : 藤森 厚裕 (埼玉大学)
Atsuhiro FUJIMORI(Saitama Univ.) |
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| 2065 | C3-P10-001 | Dec. 10 | *M | 泉水 崇彰 Takaaki SENSUI |
東京理科大学大学院基礎工学研究科材料工学専攻 Department of Materials Science and Technology, Tokyo University of Science, Tokyo, Japan. |
長鎖アルコールとハイブリッドカルボン酸から成る混合LB膜の相分離構造 Phase-separated structures of mixed LB films of long-chain alcohol and hybrid carboxylic acid |
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| 2017 | C3-P10-002 | Dec. 10 | *D | ムハンマド アブドゥラ アル マームン Mamun MUHAMMAD ABDULLAH AL |
埼玉大院理工 Graduate School of Science and Engineering, Saitama University |
耐熱性フレキシブル透明ナノハイブリッドフィルムの創出ー"結晶性"高分子透明技術の新提案ー Flexible Transparent Fluorinated Nanohybrid with Innovative Heat-resistance Property–New Technology Proposal for Fabrication of Transparent Materials using "Crystalline" Polymer– |
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| 2070 | C3-P10-003 | Dec. 10 | *B | 岸田 健太郎 Kentarou KISHIDA |
明治大学理工学部 School of Science and Engineering, Meiji University |
気液界面における両親媒性ペプチドと脂質の混和性と固体基板上での単分子膜の構造 Miscibility between Amphiphilic Peptides and Lipids at the Air-Water Interface |
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| 2030 | C3-P10-004 | Dec. 10 | *D | 孟 起 Qi MENG |
埼玉大院理工 Graduate School of Science and Engineering, Saitama University |
高分子トポロジー"界面"化学の提案 Dependency of Polymer "Shape" on Morphology and Stability of Layer Structures of Organized Molecular Films of Cyclic and Linear Block Copolymers of Butyl Acrylate-Ethylene Oxide |
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| 2153 | C3-P10-005 | Dec. 10 | *M | 桑野 武尊 Takeru KUWANO |
東京理科大学院 基礎工学研究科 Graduste School of Industrial Science and Technology, Tokyo University of Science |
PEG吸着ポリ(スチレン)-ポリ(エチレングリコール)LB膜の相分離構造 Phase-Separated Structures of LB films of Poly(styrene)-block-Poly(ethylene glycol) with Adsorbed PEG |
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| 2035 | C3-P10-006 | Dec. 10 | *B | 設楽 雄作 Yusaku SHIDARA |
埼玉大工 Faculty of Engineering, Saitama University |
新規芳香族ポリアミドブロック共重合体の組織分子膜中における配列制御 Control of Molecular Arrangement by Formation of Interfacial Films of Polyamide Derivatives with Bulky Aromatic Substituent |
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| 2216 | C3-P10-007 | Dec. 10 | 三浦 康弘 Yasuhiro MIURA |
桐蔭横浜大学大学院工学研究科 Graduate School of Engineering, Toin University of Yokohama |
アルキルアンモニウム-Au(dmit)2塩に基づくラングミュア膜、及び、ラングミュア・ブロジェット膜における展開溶媒の効果 Effect of Spreading Solvents on Langmuir and Langmuir-Blodgett Films based on Alkylammonium-Au(dmit)2 Salt |
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| 2031 | C3-P10-008 | Dec. 10 | *B | 鈴木 真奈美 Manami SUZUKI |
埼玉大工 Faculty of Engineering, Saitama University |
分子性薄膜の手法によるチキソトロピック剤としての12-ヒドロキシステアリン酸誘導体の配列制御とその微細構造 Control of Molecular Arrangement of 12-hydroxy Stearic Acid Derivatives as Thixotropic Agent by the Method of Organized Molecular Films and Their Fine Structural Estimation |
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| 2638 | C3-P10-009 | Dec. 10 | *B | 戸賀沢 稜 Ryo TOGASAWA |
慶應義塾大学理工学部 Faculty of Science and Technology, Keio University |
生体適合材料による耐熱水性滑液膜 Slippery surface with durability against hot water fabricated by biocompatible material |
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| 2039 | C3-P10-010 | Dec. 10 | *B | 田崎 平 Taira TASAKI |
埼玉大工 Faculty of Engineering, Saitama University |
高密度・低欠陥単粒子膜形成に資する有機修飾ナノダイヤモンドの粒径制御効果 The Effect of Particle Size on Formation of High-density and Low-defect Single Particle Layer of Organo-modified Nanodiamond |
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| 2639 | C3-P10-011 | Dec. 10 | *B | 近藤 良亮 Ryosuke KONDO |
明治大学理工学部 School of Science and Technology, Meiji University |
HeLa細胞に取り込まれた微粒子数と微粒子の物理化学的性質の関係性 Relationship between amount of particles internalized by HeLa cells and physicochemical properties of the particles. |
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| 2602 | C3-P10-012 | Dec. 10 | *M | 林 佑太郎 Yutaro HAYASHI |
日本大学理工学部 College of Science & Technology, Nihon University |
曲げ二層グラフェンの電気特性 Electrical characteristics of bending bilayer graphene |
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| 2115 | C3-P10-013 | Dec. 10 | *M | 大村 京平 Kyohei OHMURA |
埼玉大学大学院理工学研究科 Graduate School of Science and Engineering, Saitama University |
有機修飾磁性微粒子による高密度・低欠陥界面単粒子膜並びに混合粒子膜の創製 Creation of High-density and Low-defect Single-layer Film of Magnetic Nanoparticles by Method of Interfacial Molecular Films |
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| 2518 | C3-P10-014 | Dec. 10 | *M | 植田 潤 Jun UEDA |
東京理科大学大学院基礎工学研究科 Graduate School of Tokyo Universuty of Science |
シランカップリング剤を含む二成分混合LB膜の相分離構造 Phase-Separated Structures of Two-Component Mixed LB Films Containing Silane Coupling Agent |
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| 2118 | C3-P10-015 | Dec. 10 | *M | 三浦 俊太郎 Shuntaro MIURA |
埼玉大院理工 Graduate School of Science and Engineering, Saitama University |
非晶性及び結晶性ポリグアナミン誘導体の界面膜形成による配列制御とその構造解析 Fine Structural Analysis, Formation of Interfacial Particle Films, and Accurate Estimation of Orientation in Polyguanamine Derivatives with a High Refractive Index |
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| 2238 | C3-P10-016 | Dec. 10 | *M | 小松 大介 Daisuke KOMATSU |
東京理科大学大学院材料工学研究科 Tokyo University of Science graduate school materials engineering specialty |
ポリスチレンとポリメタクリル酸メチルの混合LB膜の構造 Structure of the mixed LB film of polystyrene and the polymethyl methacrylate |
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| 2267 | C3-P10-017 | Dec. 10 | *M | 川崎 宏太朗 Koutaro KAWASAKI |
東京理科大学院材料工学研究科 Tokyo Univercity of Science graduate school materials engineering specialty |
ハイブリットカルボン酸と長鎖アミンの混合LB膜の構造 Phase-Separated Structures of Mixed Langmuir-Blodgett Films of Hybrid Carboxylic acid and Long-Chain Amine |
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| 2581 | C3-P10-018 | Dec. 10 | *B | 吉武 駿平 Shunpei YOSHITAKE |
明治大学理工学部 School of Science and Technology, Meiji University |
HeLa細胞における微粒子取り込み機構 Uptake mechanism of microparticles in HeLa cells |
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| 2029 | C3-P10-019 | Dec. 10 | *M | 笠原 裕佑 Yusuke KASAHARA |
埼玉大院理工 Graduate School of Science and Engineering, Saitama University |
結晶性フッ素ポリマー/有機修飾ナノダイヤモンド透明ナノハイブリッドフィルムの創出とその精密構造解析 Fabrication of Antibacterial, Transparent, Flexible, and Heat Resistant Nanohybrids using High-density Amorphous Formation and Uniform Dispersion of Nanocarbon |
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| 2013 | C3-P10-020 | Dec. 10 | 藤森 厚裕 Atsuhiro FUJIMORI |
埼玉大院理工 Graduate School of Science and Engineering |
有機修飾ナノダイヤモンド組織化膜形成における修飾分子鎖の役割 The Role of Modifying Molecular Chains in the Formation of Organized Molecular Films of Organo-modified Nanodiamond– Construction of a Highly-Ordered Low Defect Particle Layer, and Evaluation of Desorption Behavior of Organic Chains – |
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