C-3 : 界面におけるナノバイオテクノロジー Nano-biotechnology on Interfaces |
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| Entry No | Keynote/ Invited |
Presentation | Date | Time to start |
Time to finish |
Award | Presenter Name | Affiliation | Paper Title |
Dec. 19 9:10 - 17:40 波止場会館 多目的ホール/ Hatoba Kaikan Multi-purpose Hall |
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| 2178 | C3-O19-001 | Dec. 19 | 09:10 | 09:30 | *M | 井内 賢治 Kenji IUCHI |
東京理科大学大学院総合化学研究科 Graduate School of Chemical Sciences and Technology, Tokyo University of Science |
界面紡糸による多糖/ヒドロキシアパタイト複合ファイバーの作製 Preparation of Polysaccharides/Hydroxyapatite Composite Fibers by Spinning from Aqueous Solution Interfaces |
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| 2805 | C3-O19-002 | Dec. 19 | 09:30 | 10:00 | 松田 直樹 Naoki MATSUDA |
産総研 AIST |
スラブ光導波路分光法を用いる界面におけるチトクロームc機能のその場観察 In situ observation of interfacial phenomena of cytochrome c with slab optical waveguide spectroscopy |
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| 2802 | Invited | C3-I19-003 | Dec. 19 | 10:00 | 10:30 | 中野 美紀 Miki NAKANO |
産業技術総合研究所 National Institute of Advanced Industrial Science and Technology (AIST) |
表面化学修飾による菌の接着制御 Control of fungal adhesion using molecular modified surface |
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| coffee break | Dec. 19 | 10:30 | 10:40 | ||||||
| 2738 | Invited | C3-I19-004 | Dec. 19 | 10:40 | 11:10 | 林 智広 Tomohiro HAYASHI |
東京工業大学大学院 物質理工学院 材料系 Department of Materials Science and Engineering, School of Materials and Chemical Technology, Tokyo Institute of Technology |
人工ニューラルネットワークモデルを用いた材料特性とタンパク質吸着の相関解析 Correlation between Physicochemical Properties of Self-Assembled Monolayers and Protein Adsorption Analyzed with Artificial Neural Network |
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| 2706 | Invited | C3-I19-005 | Dec. 19 | 11:10 | 11:40 | ムクンダン ハラシニ Harshini MUKUNDAN |
Los Alamos National Laboratory, Los Alamos National Laboratory, |
Interrogating Amphiphile Interactions with Lipid Bilayer: Implications for Detection Interrogating Amphiphile Interactions with Lipid Bilayer: Implications for Detection |
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| 2075 | Invited | C3-I19-006 | Dec. 19 | 13:00 | 13:30 | 飯島 一智 Kazutoshi IIJIMA |
東京理科大学工学部工業化学科/東京理科大学大学院総合化学研究科 Department of Industrial Chemistry, Tokyo University of Science/Graduate School of Chemical Sciences and Technology, Tokyo University of Science |
簡便な手法による細胞培養用ポリスチレンプレートのヒドロキシアパタイトによる表面機能化 Simple and Rapid Surface Functionalization of Tissue Culture-treated Polystyrene Plates with Hydroxyapatite |
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| 2626 | Invited | C3-I19-007 | Dec. 19 | 13:30 | 14:00 | 安川 智之 Tomoyuki YASUKAWA |
兵庫県立大学大学院物質理学研究科 Graduate School of Material Science, University of Hyogo |
微小孔を有するマイクロ電極を用いた誘電泳動による個々の細胞の再配置 Pickup and relocation of individual cells based on dielectrophoresis using a microdisk electrode with microcavity |
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| 2777 | Invited | C3-I19-008 | Dec. 19 | 14:00 | 14:30 | 須丸 公雄 Kimio SUMARU |
産業技術総合研究所 National Institute of Advanced Industrial Science and Technology |
ハイドロゲルシートからなる半立体マイクロ構造の作製と応用 Fabrication and Application of Semi-3D Microstructures Composed of Hydrogel Sheet |
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| 2190 | Invited | C3-I19-009 | Dec. 19 | 14:30 | 15:00 | Seung-wuk LEE | University of California, Berkeley | Virus-based Piezoelectric Materials and Application | |
| 2711 | Invited | C3-I19-010 | Dec. 19 | 15:00 | 15:30 | *G | 甲斐 洋行 Hiroyuki KAI |
東北大学 Tohoku University |
酵素燃料電池絆創膏による創傷治癒促進 Accelerated would healing by an enzymatic biofuel cell plaster |
| coffee break | Dec. 19 | 15:30 | 15:50 | ||||||
| 2460 | Invited | C3-I19-011 | Dec. 19 | 15:50 | 16:20 | 中西 周次 Shuji NAKANISHI |
大阪大学 Osaka University |
生体親和性レドックスポリマーによる微生物生細胞への電気化学的電子注入 Cathodic supply of electrons to living microbial cells via cytocompatible redox-active polymers |
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| 2133 | Invited | C3-I19-012 | Dec. 19 | 16:20 | 16:50 | 雨宮 隆 Takashi AMEMIYA |
横浜国立大学 Yokohama National University |
がん細胞における解糖系振動反応 Glycolytic oscillations in cancer cells |
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| 2782 | Invited | C3-I19-013 | Dec. 19 | 16:50 | 17:10 | \N Mark BIRCH |
\N University of Cambridge, Division of Trauma & Orthopaedic Surgery, Addenbrooke's Hospital, |
Engineering osteochondral repair from the implant interface | |
| 2829 | Invited | C3-I19-014 | Dec. 19 | 17:10 | 17:40 | 田中 賢 Masaru TANAKA |
九州大学&山形大学 Kyushu University&Yamagata University |
Design of Blood Compatible Polymers Based on the Intermediate Water Concept Design of Blood Compatible Polymers Based on the Intermediate Water Concept |
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