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論文・学会発表

学術論文

2024年 学術論文

  1. Antimicrobial Peptide Assembly on Zwitterionic Polymer Films to Slow Down Biofilm Formation, Yuta Kozuka, Tsukuru Masuda, Norifumi Isu, and Madoka Takai, Langmuir, 2024. → link
  2. Superior antibacterial surfaces using hydrophilic, poly(MPC) and poly(mOEGMA) free chains of amphiphilic block copolymer for sustainable use, Tsukuru Masuda, Shoichi Yoshizawa, Aya Noguchi, Yuta Kozuka, Norifumi Isu, Madoka Takai, Heliyon, 2024, In Press, Journal Pre-proof. → link
  3. Preparation of cellular membrane-mimicking glycopolymer interfaces by the solvent-assisted method on QCM-D sensor chips and their molecular recognition, Masanori Nagao, Tsukuru Masuda, Madoka Takai, Yoshiko Miura, J. Mater. Chem. B, 2024, Accepted. → link

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2023年 学術論文

  1. An automatic immuno-microfluidic system integrating electrospun polystyrene microfibrous reactors for rapid detection of salivary cortisol, Yecan Wang, Hiroshi Murakami, Toshihiro Kasama, Shigenobu Mitsuzawa, Satoru Shinkawa, Ryo Miyake, Madoka Takai, iScience, 26(10):107820, 2023.  → link
  2. Bactericidal Ability of Well-Controlled Cationic Polymer Brush Surfaces and the Interaction Analysis by Quartz Crystal Microbalance with Dissipation, Tsukuru Masuda, Yoichi Watanabe, Yuta Kozuka, Yui Saegusa, and Madoka Takai, Langmuir, (2023) → link
  3. Cell Spheroid Formation on the Surface of Multi-Block Copolymers Composed of Poly(2-methoxyethyl acrylate) and Polyethylene Glycol, Naoto Ogiwara, Takenobu Nakano, Tsukuru Masuda, Keiichiro Kushiro, Madoka Takai, Macromolecular Bioscience, 23:2200486, (2023) → link

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2022年 学術論文

  1. Functionalized Silicone Elastomer via Alkaline Solution to Coat Phosphorylcholine-Based Copolymer Containing Organosilane to Improve Hemocompatibility for Medical Devices, Fang-Yu Chou, Shintaro Hara, Kazuto Uchida, Yoichi Matsuo, Tsukuru Masuda, Ryo Yokoi, Toshiya Ono, Masaki Anraku, Takashi Isoyama, Madoka Takai, Front. Mater., 9:877755, (2022) → link
  2. Silver-loaded carboxymethyl cellulose nonwoven sheet with controlled counterions for infected wound healing, Seiichi Ohta, Kento Mitsuhashi, Arvind K. Singh Chandel, Pan Qi, Noriko Nakamura, Akiko Nakamichi, Hiromi Yoshida, Gento Yamaguchi, Yuichi Hara, Ryo Sasaki, Masaya Fuke, Madoka Takai, Taichi Ito, Carbohydrate Polymers, 286, 119289, (2022) → link
  3. Design of biointerfaces composed of soft materials using controlled radical polymerizations, Tsukuru Masuda, and Madoka Takai, J. Mater. Chem. B, 10, 1473-1485, (2022) → link
  4. Cell Adhesion and Migration on Thickness Gradient Bilayer Polymer Brush Surfaces: Effects of Properties of Polymeric Materials of the Underlayer, Zahra Afzali, Taishi Matsushita, Akinori Kogure, Tsukuru Masuda, Tomoyuki Azuma, Keiichiro Kushiro, Toshihiro Kasama, Ryo Miyake, and Madoka Takai, ACS Appl. Mater. Interfaces, 14, 2, 2605–2617 (2022) → link

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2021年 学術論文

  1. pH-Responsive Water-Soluble Polymer Carriers for Cell-Selective Metabolic Sialylation Labeling, Tingbi Zhao, Tsukuru Masuda, Madoka Takai, Analytical Chemistry, 93, 46, 15420–15429 (2021) → link
  2. Single cell organization and cell cycle characterization of DNA stained multicellular tumor spheroids, Karl Olofsson, Valentina Carannante, Madoka Takai, Björn Önfelt Martin Wiklund, Sci Rep 11, 17076 (2021) → link
  3. Facile preparation of water-soluble multiwalled carbon nanotubes bearing phosphorylcholine groups for heat generation under near-infrared irradiation, Thi Lien Nguyen, Madoka Takai, Kazuhiko Ishihara, Keigo Oyama, Syuji Fujii, Shin-ichi Yusa, Polym J 53, 1001–1009 (2021) → link
  4. Ultrasound-Based Scaffold-Free Core-Shell Multicellular Tumor Spheroid Formation, Karl Olofsson, Valentina Carannante, Madoka Takai, Bjorn Onfelt, Martin Wiklund, Micromachines., 12, 329, (2021) → link
  5. A Modifiable, Spontaneously Formed Polymer Gel with Zwitterionic and N-Hydroxysuccinimide Moieties for an Enzymatic Biofuel Cell, Yixuan Huang, Tsukuru Masuda, and Madoka Takai, ACS Appl. Polym. Mater., 3, 2, 631–639, (2021) → link
  6. Fluorescent polymeric nanoparticle for ratiometric temperature sensing allows real-time monitoring in influenza virus-infected cells, Tingbi Zhao, Kenta Asawa, Tsukuru Masuda, Ayae Honda, Keiichiro Kushiro, Horacio Cabral, and Madoka Takai, Journal of Colloid and Interface Science, 601, 825-832, (2021) → link
  7. Evaluation of bacterial adhesion strength on phospholipid copolymer films with antibacterial ability using microfluidic shear devices, Yuta Kozuka, Zhou Lu, Tsukuru Masuda, Shintaro Hara, Toshihiro Kasama, Ryo Miyake, Norifumi Isu, and Madoka Takai , J. Mater. Chem. B, (2021), 9, 4480 → link

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2020年 学術論文

  1. “Nano”: An Emerging Avenue in Electrochemical Detection of Neurotransmitters, Sasya Madhurantakam, Jayanth Babu Karnam, Dermot Brabazon, Madoka Takai, Inam Ul Ahad, John Bosco Balaguru Rayappan, and Uma Maheswari Krishnan, ACS Chem. Neurosci 11, 24, 4024–4047 (2020) → link
  2. High Dye-Loaded and Thin-Shell Fluorescent Polymeric Nanoparticles for Enhanced FRET Imaging of Protein-Specific Sialylation on the Cell Surface, Tingbi Zhao, Tsukuru Masuda, Eiji Miyoshi, and Madoka Takai, Analytical Chemistry, 92, 19, 13271–13280, (2020)
  3. Hydrophilic surfaces from simple dip-coating method: amphiphilic block copolymers with zwitterionic group form antifouling coatings under atmospheric conditions, Aya Noguchi, Tsukuru Masuda, Chuqiao Chen, Shoichi Yoshizawa, Norifumi Isu, Madoka Takai, Mater. Adv., 1, 2737–2744, (2020)
  4. Structure and properties of thermoresponsive gels formed by RAFT polymerization: effect of the RAFT agent content, Tsukuru Masuda, Madoka Takai, Polym. J., 52, 1407–1412, (2020)
  5. Protein adsorption behavior in nanoscale phase-separated polymer coatings prepared using poly(2-methacrylolyoxyethyl phosphorylcholine)-containing amphiphilic block copolymers, Tsukuru Masuda, Yukari Hiraguchi, Keiichiro Kushiro, Yasuyuki Araki, Takehiko Wada, Madoka Takai, Eur. Polym. J., 135, 109885, (2020)
  6. Enhanced Stability of Lipid Structures by Dip-Pen Nanolithography on Block-Type MPC Copolymer, Hui-Yu Liu, Ravi Kumar, Madoka Takai, Michael Hirtz, Molecules, 25, 2768, (2020)
  7. Study on Polyethylene Glycol Cross-linker in Peptide-conjugated Antibody on Efficiency of Cell Capture and Release, Akifumi Yoshihara, Ryota Sekine, Yoshiyuki Yamada, Madoka Takai, Analytical Biochemistry, 113790, (2020)
  8. Unique Cancer Migratory Behaviors in Confined Spaces of Microgroove Topography with Acute Wall Angles, Tomohiro Yaginuma, Keiichiro Kushiro, Madoka Takai, Sci. Rep., 10, 6110, (2020)
  9. Imaging the Nanophase-separated Structure of Block Copolymer Thin Film by Atomic Force Microscopy in Aqueous Solution, Kasinan Suthiwanich, Yukari Hiraguchi, Takashi Nyu, Evan Angelo Quimada Mondarte, Madoka Takai, Tomohiro Hayashi, Chem. Lett., 49, 641–644, (2020)
  10. Surface functionalization of carbon-based sensors with biocompatible polymer to enable electrochemical measurement in protein-rich environment, Tinnlea Uen, Keiichiro Kushiro, Hiroshi Hibino, Madoka Takai, Sensors & Actuators: B. Chemical, 309, 127758, (2020)
  11. Study on Bacterial Antiadhesiveness of Stiffness and Thickness Tunable Cross-Linked Phospholipid Copolymer Thin-Film, Zhou Lu, Evan A. Q. Mondarte, Kasinan Suthiwanich, Tomohiro Hayashi, Tsukuru Masuda, Norifumi Isu, Madoka Takai, ACS Appl. Bio Mater., 3, 1079−1087, (2020)
  12. Strong Cationic Radical Initiator‐Based Design of a Thermoresponsive Hydrogel Showing Drastic Volume Transition, Tsukuru Masuda, Toshikazu Tsuji, Hideki Koizumi, Madoka Takai, Macromol. Chem. Phys., 1900507, (2020)

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2019年 学術論文

  1. Protein adsorption behavior on reduced graphene oxide and boron-doped diamond investigated by electrochemical impedance spectroscopy, Yixuan Huang, Aiga Hara, Chiaki Terashima, Akira Fujishima, Madoka Takai, Carbon, 152, 847–855, (2019)
  2. Influence of cell adhesive molecules attached onto PEG-lipid-modified fluid surfaces on cell adhesion, Makoto Noiri, Keiichiro Kushiro, Shodai Togo, Ken Sato, Hiroshi Y. Yoshikawa, Madoka Takai, Yuji Teramura, Coll. Surf. B, 157, 375–383, (2019)
  3. Control of Protein Adsorption to Cyclo Olefin Polymer by the Hofmeister Effect, Risako Fujita, Satoru Nagatoishi, Satoru Adachi, Hiroya Nishioka, Hidetaka Ninomiya, Takatoshi Kaya, Madoka Takai, Tsutomu Arakawa, Kouhei Tsumoto, J. Pharm. Sci., 108, 1686–1691, (2019)

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2018年 学術論文

  1. Electrospun Polymeric Microfiber Substrates for Rapid Protein and Cell-based Assays, Madoka Takai, Carlton F. O. Hoy, Akifumi Yoshihara, J. Photopolym. Sci. Technol., 31, 65-69, (2018)
  2. Highly sensitive and rapid biosensing on a three-dimensional polymer platform, Madoka Takai, Polymer Journal, 50, 847–855, (2018)
  3. Acoustic formation of multicellular tumor spheroids enabling on-chip functional and structural imaging, K. Olofsson, V. Carannante, M. Ohlin, T. Frisk, K. Kushiro, M. Takai, A. Lundqvist, B. Önfelt and M. Wiklund, Lab Chip, 18, 2466-2476, (2018)
  4. Rapid and highly efficient capture and release of cancer cells using polymeric microfibers immobilized with enzyme-cleavable peptides, Akifumi Yoshihara, Ryota Sekine, Takayuki Ueki, Yasuhito Kondo, Yoshiyuki Suanga, Tadashi Nakaji-Hirabayashi, Yuji Teramura and Madoka Takai, Acta Biomater., 67, 32-41, (2018)
  5. Fabrication and assessment of an electrospun polymeric microfiber-based platform under bulk flow conditions with rapid and efficient antigen capture, Carlton Fune Ogasawara Hoy, Keiichiro Kushiro and Madoka Takai, Analyst, 143, 865-873, (2018)

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2017年 学術論文

  1. Ratiometric fluorescence imaging of cell surface pH by poly(ethylene glycole)-phospholipid conjugated with fluorescein isothiocyanate, Ryuichi Ohgaki, Yuji Teramura, Daichi Hayashi, Lili Quan, Suguru Okuda, Shushi Naganuma, Madoka Takai and Yoshikatsu Kanai, Sci. Rep., 7, (2017)
  2. An aproach to the research on ion and water properties in the interphase between the plasma membrane and bulk extracellular solution, Hiroshi Hibino, Madoka Takai, Hidenori Noguchi, Seishiro Sawamura, Yasuhumi Takahashi, Hideki Sakai, Hitoshi Shiku, J Phisiol. Sci., 67, 439-445, (2017)
  3. A microsensing system for the in vivo real-time detection of local drug kinetics, Genki Ogata, Yuya Ishii, Kai Asai, Yamato Sano, Fumiaki Nin, Takamasa Yoshida, Taiga Higuchi, Seishiro Sawamura, Takeru Ota, Karin Hori, Kazuya Maeda, Shizuo Komune, Katsumi Doi, Madoka Takai, Ian Findlay, Hiroyuki Kusuhara, Yasuaki Einaga and Hiroshi Hibino, Nature Biomedical Engineering, 1, 654–666, (2017)
  4. Nano-structural comparison of 2-methacryloyloxyethyl phosphorylcholine- and ethylene glycol-based surface modification for preventing protein and cell adhesion, Tomoyuki Azuma, Ryuichi Ohmori, Yuji Teramura, Takahiro Ishizaki and Madoka Takai, Colloids and Surfaces B: Biointerfaces, 159, 655–661, (2017)
  5. Differences in Three-Dimensional Geometric Recognition by Non- Cancerous and Cancerous Epithelial Cells on Microgroove-Based Topography, Keiichiro Kushiro, Tomohiro Yaginuma, Akihide Ryo and Madoka Takai, Sci Rep, 7, (2017)

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2016年 学術論文

  1. Enhancement of Cell Adhesion on a Phosphorylcholine-Based Surface through the Interaction with DNA Mediated by Ca2+ Ions, Tomoyuki Azuma, Yuji Teramura, Toru Hoshi, and Madoka Takai, J. Phys. Chem. B, 120, 12272-12278, (2016)
  2. Fast and selective cell isolation from blood sample by microfiber system with vacuum aspiration, Takayuki Ueki, Akifumi Yoshihara, Yuji Teramura, Madoka Takai, Science and Technology of Advanced Materials (STAM), 17, 807-815, (2016)
  3. Analysis of the Changes in Expression Levels of Sialic Acid on Influenza-Virus-Infected Cells Using Lectin-Tagged Polymeric Nanoparticles, Jaebum Cho, Yukari Miyake, Ayae Honda, Keiichiro Kushiro and Madoka Takai, Frontier of Microbiology, 10, 3389- 3397 (2016)
  4. Formation of reversed nanoscale phase-separated structures using poly(2-methacrylolyoxyethyl phosphorylcholine)-based amphiphilic block copolymers, Yukari Hiraguchi, Keiichiro Kushiro, Madoka Takai, Polymer, 99, 166-172 (2016)
  5. Simultaneous characterization of protein-material and cell-protein interactions using dynamic QCM-D analysis on SAM surfaces, Keiichiro Kushiro, Chin-Hao Lee, Madoka Takai, Biomaterial Science, 4, 989-997 (2016)
  6. Cellular Response to Non-contacting Nanoscale Sublayer: Cells Sense Several Nanometer Mechanical Property, Tomoyuki Azuma, Yuji Teramura, Madoka Takai, ACS Appl. Mater. Interfaces, 8, 10710-10716 (2016)
  7. Non-Osmotic Hydrogels: A Rational Strategy for Safely Degradable Hydrogels, Hiroyuki Kamata, Keiichiro Kushiro, Madoka Takai, Ung-il Chung, and Takamasa Sakai, Angew. Chem. Int. Ed., 55, 9282-9286 (2016)
  8. Positive regulation of the enzymatic activity of gastric H+,K+-ATPase by sialylation of its β-subunit, Takuto Fujii, Midori Watanabe, Takahiro Shimizu, Hiroshi Takeshima, Keiichiro Kushiro, Madoka Takai, Hideki Sakai, Biochimica et Biophysica Acta, 1858, 1228-1235 (2016)
  9. Influence of molecular weight of PEG chain on interaction between streptavidin and biotin-PEG-conjugated phospholipids studied with QCM-D,Yuji Teramura, Kohei Kuroyama, Madoka Takai, Acta Biomaterialia, 30, 135-143 (2016)

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2015年 学術論文

  
  1. Slope-Dependent Cell Motility Enhancements at the Walls of PEG-Hydrogel Microgroove Structures, Keiichiro Kushiro, Takamasa Sakai, Madoka Takai, Langmuir, 31, 10215−10222 (2015).
  2. Polymer brush biointerfaces for highly sensitive biosensors that preserve the structure and function of immobilized proteins, Kenji Takasu, Keiichiro Kushiro, Katsuyoshi Hayashi, Yuzuru Iwasaki, Suzuyo Inoue, Emi Tamechika, Madoka Takai, Sensors and Actuators B: Chemical, Vol.216, 428-433 (2015)
  3. Role of Interfacial Water in Protein Adsorption onto Polymer Brushes as Studied by SFG Spectroscopy and QCM, Daiki Nagasawa, Tomoyuki Azuma, Hidenori Noguchi, Kohei Uosaki, and Madoka Takai, The Journal of Physical Chemistry C, Vol.119, 17193-17201 (2015)
  4. Stable surface coating of silicone elastomer with phosphorylcholineand organosilane copolymer with cross-linking for repelling proteins, Koji Nagahashi, Yuji Teramura, Madoka Takai, Colloids and Surfaces B: Biointerfaces, Vol.134, 384-391 (2015)
  5. 臭化銅含DMSO溶媒を用いた貴金属・レアメタル回収手法の開発、吉村彰大、梅原佳那、高井まどか、松野泰也、日本金属学会誌 第79巻 第2号、41-48(2015)

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2014年 学術論文

  1. Novel process for recycling gold from secondary sources: Leaching of gold by dimethyl sulfoxide solutions containning copper bromide and precipitation with water, Akihiro Yoshimura, Madoka Takai, Yasunari Matsuno, Hydrometallurgy 149, 177-182 (2014)
  2. Lectin-Tagged Fluorescent Polymeric Nanoparticles for Targeting of Sialic Acid on Living Cells, Jaebum Cho, Keiichiro Kushiro, Yuji Teramura, Madoka Takai, Biomacromolecules, 15 (6), 2012-2018 (2014)
  3. Effect of the distribution of adsorbed proteins on cellular adhesion behaviors using surfaces of nanoscale phase-reversed amphiphilic block copolymers, Yukari Hiraguchi, Koji Nagahashi, Takashi Shibayama, Tomohiro Hayashi, Taka-aki Yano, Keiichiro Kushiro, Madoka Takai, Acta Biomaterialia,Vol.10, 2988-2995 (2014)

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2013年 学術論文

  1. Direct electron transfer with enzymes on nanofiliform titanium oxide films with electron-transport ability, So-Yoon Lee , Ryosuke Matsuno, Kazuhiko Ishihara , Madoka Takai , Biosensors and Bioelectronics, Vol.41, 289–293 (2013)
  2. Redox phospholipid polymer microparticles as doubly functional polymer support for immobilization of enzyme oxidase, Xiaojie Lin, Tomohiro Konno, Madoka Takai, Kazuhiko Ishihara, Colloids and Surfaces B: Biointerfaces, 102(Feb), 857-863 (2013)
  3. ソフト界面の構築によるタンパク質の高機能固定化技術, 高井まどか・高須健司, vol.113 No.17, 97-101 (2013)
  4. Emergency Life Support System aiming preprimed oxygenator, Takashi Isoyama, Koki Ariyoshi, Kyosuke Nii, Itusro Saito, Kazuyoshi Fukunaga, Usuke Inoue, Toshiya Ono, Kohei Ishii, Shintaro Hara, Kou Imachi, Madoka Takai, and Yusuke Abe, 35th Annual International Conference of the IEEE EMBS, 5731-5734 (2013)

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2012年 学術論文

  1. QCM-D analysis of material-cell interactions targeting a single cell during initial cell attachment, Etsuko Watarai, Ryosuke Matsuno, Tomohiro Konno, Kazuhiko Ishihara, Madoka Takai, Sensors and Actuators, B171-172, 1297-1302, (2012)
  2. Nonbiofouling surfaces covered by bio-inspired 2-methacryloyloxyethyl phosphorylcholine polymer brush by use of polymeric photoiniferter, James Sibarani, Tomohiro Konno, Madoka Takai, and Kazuhiko Ishihara, Nano LIFE, 2(4), 1242003-1~11, (2012)
  3. Fabrication of polymeric electron-transfer mediator/enzyme hydrogel multilayer on an Au electrode in a layer-by-layer process,Ziyin Li, Tomohiro Konno, Madoka Takai, Kazuhiko Ishihara,Biosensor Bioelectron, 34(1), 191-196 (2012)
  4. Regulation of cell proliferation by multilayered phospholipid polymer hydrogel through controlled release of bioactive agent, Jiyeon Choi, Tomohiro Konno, Madoka Takai and Kazuhiko Ishihara, Biomaterials, 33(3), 954-961 (2012).
  5. Continuous preparation of a spherical phospholipid polymer hydrogel for cell encapsulation using a flow-focusing microfluidic channel device,Tatsuo Aikawa, Tomohiro Konno, Madoka Takai, Kazuhiko Ishihara, Langmuir, 28(4), 2145-2150(2012).

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2011年 学術論文

  1. Significance of Antibody Orientation Unraveled: Well-Oriented Antibodies Recorded High Binding Affinity,N. Tajima, M. Takai, and K. Ishihara, Anal. Chem., 83, 1969-1976(2011).
  2. Effect of hydrophilic polymer conjugation on heat-induced conformational changes in a protein, J-H. Seo, R. Matsuno, Y. Lee, T. Konno, M. Takai, and K. Ishihara, Acta Biomaterialia, 7, 1477-1484 (2011).
  3. Spontaneous formation of a hydrogel composed of water-soluble phospholipid polymer grafted with enantiomeric oligo(lactic acid) chains, Kimiaki Takami, Junji Watanabe, Madoka Takai, Kazuhiko Ishihara, J Biomater Sci Polym Edn, 22(1), 77-89 (2011).
  4. Electrical transport ability of nanostructured potassium-doped titanium oxide film, So-Yoon Lee, Ryosuke Matsuno, Kazuhiko Ishihara, and Madoka Takai, Applied Physics Express, 4, 025803-1-3 (2011).
  5. Quick and simple modification of poly(dimethylsiloxane) surface by optimized molecular design of the anti-biofouling phospholipid copolymer, Ji-Hun Seo, Takashi Shibayama, Madoka Takai, Kazuhiko Ishihara, Soft Matter, 7(6), 2968-2976 (2011).
  6. Surface Functionarization of Polydimethylsiloxane by Photo-Induced Polymerization of 2-Methacryloyloxyethyl Phosphorylcholine for Biodevices, Madoka Takai, Takanori Shirai, Kazuhiko Ishihara, J Photopolym Sci Technol, 24(5), 597-602 (2011).
  7. Quantum dots covered with pH responsive and biocompatible phospholipid polymer for trafficking in endocytosis process, Kouichi Masuda, Ryosuke Matsuno, Tomohiro Konno, Madoka Takai, Kazuhiko Ishihara, Trans Mater Res Soc Jan, 36(2), 265-268(2011).
  8. Enzyme oxidase-immobilized phospholipid polymer microparticles for biofuel cell application, Xiaojie Lin, Tomohiro Konno, Madoka Takai, and Kazuhiko Ishihara, Trans Mater Res Soc Jan, 36(3), 531-534(2011).

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2010年 学術論文

  1. Control of surface modification uniformity inside small-diameter polyethylene/poly(vinyl acetate) composite tubing prepared with supercritical carbon dioxide, T. Hoshi, T. Sawaguchi, R. Matsuno, T. Konno, M. Takai, and K. Ishihara, J. Materials Chemistry, 20, 4897-4904(2010).
  2. Super-hydrophilic silicone hydrogels with interpenetrating poly(2-methacryloyloxyethyl phosphorylcholine) networks, T. Shimizu, T. Goda, N. Minoura, M. Takai, K. Ishihara, Biomaterials, 31, 3274-3280 (2010).
  3. Preparation of poly(2-methacryloyloxyethyl phospholcholine)/hydroxyapatite hybrid matrix, Y. Toyomoto, R. Matsuno, T. Konno, M. Takai, and K. Ishihara, Trans. Mater. Res. Soc. Jpn, 35(1), 123-126 (2010).
  4. Novel cytocompatible intracellular pH-imaging fluorescence probe composed of quantum dot and phospholipid polymer, K. Masuda, R. Matsuno, T. Konno, M. Takai, and K. Ishihara, Trans. Mater. Res. Soc. Jpn, 35(1), 147-150 (2010).
  5. Effect of Well-Defined polymer Brush Surface on Adsorption Force of Bovine Serum Albumin, T. Nakanishi, Y. Inoue, R. Matsuno, M. Takai, and K. Ishihara, Trans. Mater. Res. Soc. Jpn, 35(1), 135-138 (2010).
  6. Feasibility Study of Introducing Redox Property by Modification of PMBN Polymer for Biofuel Cell Applications, E.-H. Yu, Y. Himuro, M. Takai, and K. Ishihara, Appl. Biochem. Biotechnol., 160, 1094-1101 (2010).
  7. Stabilization of phospholipid polymer surface with three-dimensionalnanometer-scaled structure for highly sensitive immunoassay, K. Nishizawa, T. Konno, M. Takai and K. Ishihara, Colloid Surf. B: Biointerfaces, 77, 263-269(2010).

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2009年 学術論文

  1. Nanoscale evaluation of lubricity on well-defined polymer brush surfaces using QCM-D and AFM, K. Kitano, Y. Inoue, R. Matsuno, M. Takai, and K. Ishihara, Colloids and Surfaces B: Biointerfaces, 74, 350-357(2009).
  2. Cell adhesion on phaseseparated surface of block copolymer composed of poly-(2-methacryloyloxyethyl phospholcholine) and poly(dimethylsilixane), J.-H. Seo, R. Matsuno, M. Takai, and K. Ishihara, Biomaterials, 30, 5530-5340(2009).
  3. Solubilization of Quantum Dot with New Double Functional Reversible Addition?Fragmentation Chain Transfer Reagents, R. Matsuno, T. Konno, M. Takai, K. Ishihara, Current Applied Physics, 9(4), e284-e286 (2009).
  4. Preparation of Nano-structured Titanium Oxide Film for Biosensor Substrate by Wet Corrosion Process, S.-Y. Lee, M. Takai, H.-M. Kim, and K. Ishihara, Current Applied Physics, 9(4), e266-e269, (2009).
  5. Smart Controlled Preparation of Multilayered Hydrogel for Releasing Bioactive Molecules, J. Choi, T. Konno, M. Takai, and K. Ishihara, Current Applied Physics, 9(4), e259-e262 (2009).
  6. Preparation of Electrospun Poly(L-lactide-co-caprolactone-co-glycolide)/ Phospholipid Polymer / Rapamycin Blended Fibers for Vascular Application, H.-I. Kim, R. Matsuno, J.-H. Seo, T. Konno, M. Takai, and K. Ishihara, Current Applied Physics, 9(4), e249-e251 (2009).
  7. High-Sensitive Analysis of Oligopeptide-Induced Cell Penetration Using Phospholipid Polymer Nanoparticles Containing Quantum Dots, Y. Goto, R. Matsuno, T. Konno, M. Takai, and K. Ishihara, Trans. Mater. Res. Soc., 34(2), 189-192 (2009).
  8. Super-hydrophilic Silicone Hydrogels Composed of Interpenetrating Polymer Networks with Phospholipid Polymer, T. Shimizu, T. Konno, M. Takai and K. Ishihara, Trans. Mater. Res. Soc. Jpn, 34(2), 193-196 (2009).
  9. Antithrombogenic Surface Constructed by Block-type Phospholipid Polymer and Segmented Polyurethane, Y. Asanuma, R. Matsuno, T. Konno, M. Takai and K. Ishihara, Trans. Mater. Res. Soc. Jpn, 34(2), 197-200 (2009).
  10. Stabilization of Bioconjugated Phospholipid Polymer Nanometer Scaled Structures for Highly-sensitive Immunoassay, K. Nishizawa, T. Konno, M. Takai and K. Ishihara, Trans. Mater. Res. Soc. Jpn, 34(2), 201-204 (2009).
  11. A Novel Interface for High-Sensitive Immunoassay Using Orientation Controlled Protein A and Non-biofouling Phospholipid Polymer Surface, N. Tajima, R. Matsuno, T. Konno, M. Takai, and K. Ishihara, Trans. Mater. Res. Soc. Jpn, 34(2), 205-208 (2009).
  12. Antithrombogenic/Cytocompatible Heterogeneous Functioned Polymer Membrane for Hybrid Artificial Organs, H. Kawai, R. Matsuno, T. Konno, M. Takai and K. Ishihara, Trans. Mater. Res. Soc. Jpn, 34(2), 209-212 (2009).
  13. Protein adsorption and cell adhesion on cationic, neutral, and anionic 2-methacryloyloxyethyl phosphorylcholine copolymer surfaces, Y. Xu, M. Takai, and K. Ishihara, Biomaterials, 30, 4930-4938 (2009).
  14. Conformational recovery and preservation of protein nature from heat-induced denaturation by water-soluble phospholipid polymer conjugation, J.-H. Seo, R. Matsuno, Y. Lee, M. Takai, and K. Ishihara, Biomaterials, 30, 4859-4867(2009).
  15. Controlled drug release from multilayered phospholipid polymer hydrogelon titanium alloy surface, J. Choi, T. Konno, M. Takai, and K. Ishihara, Biomaterials, 30 5201-5208(2009).
  16. Biodegradable polymer films for releasing nanovehicles containing sirolimus, H.-I. Kim, M. Takai, T. Konno, R. Matsuno, and K. Ishihara, Drug Delivery, 16(4), 183-188(2009).
  17. Poly(vinylferrocene-co-2-hydroxyethyl methacrylate) mediator as immobilized enzyme membrane for the fabrication of amperometric glucose sensor, Y. Himuro, M. Takai, K. Ishihara, Sensors and Actuators B: Chemical, 136, 122-127(2009).
  18. Suppression of Protein Adsorption on a Charged Phospholipid Polymer Interface, Y. Xu, M. Takai, K. Ishihara, Biomacromolecules, 10 (2), 267-274(2009).
  19. The Bioabsorbable Materials Containing Phosphorylcholine-rich Surfaces for Temporary Scaffolding of the Vessel Wall, H.-I. Kim, M. Takai, and K. Ishihara, Tissue Engineering Part C, 15(2), 125-133(2009).
  20. Protein Adsorption Resistance and Oxygen Permeability of Chemically Crosslinked Phospholipid Polymer Hydrogel for Ophthalmologic Biomaterials, T. Goda, R. Matsuno, T. Konno, M. Takai, and K. Ishihara, J. Biomed. Mater. Res. Part B: Applied Biomaterials, 89(1), 184-190(2009).
  21. Controllable Nanostructured Surface Modification on Quantum Dot for Biomedical Application in Aqueous Medium, R. Matsuno, Y. Goto, T. Konno, M. Takai, and K. Ishihara, J. Nanosci. Nanotechnol. 9, 358-365 (2009).

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2008年 学術論文

  1. Micropatterned Biorecognition Surfaces on Nonbiofouling Polymer by Living Radical Photopolymerization for High Sensitivity Biosensing, M. Takai, J. Sibarani, K. Ishihara, MRS Proceedings Volume1093E, CC01-04 (2008).
  2. Nanoscale Structured Phospholipid Polymer Brush for Biointerface, K. Kitano, R. Matsuno, T. Konno, M. Takai, and K. Ishihara, Tans. Mater. Res. Soc. Jpn, 33(3), 771-774 (2008)
  3. Microchip Immunoassay Using High Density Bioconjugation on the Phospholipid Polymer Interface, K. Nishizawa, T. Konno, M. Takai, and K. Ishihara, Tans. Mater. Res. Soc. Jpn, 33(3), 787-790 (2008).
  4. Differentiation Function of Embryonic Stem Cell Inducible Bio-interface Patterned by Photo-reactive Phospholipid Polymer, T. Horie, R. Matsuno, T. Konno, M. Takai, and K. Ishihara, Tans. Mater. Res. Soc. Jpn, 33(3), 811-814(2008).
  5. Artificial Cell Membrane-covered Nanoparticles Embedding Quantum Dots as Stable and Highly-sensitive Fluorescence Bioimaging Probe, Y. Goto, R. Matsuno, T. Konno, M.Takai, and K. Ishihara, Biomacromolecules, 9(11), 3252-3257(2008).
  6. Surface Immobilization of Biocompatible Phospholipid Polymer Multilayered Hydrogel on Titanium Alloy, J. Choi, T. Konno, M. Takai, and K. Ishihara, Colloid and Surfaces B: Biointerfaces, 67(2), 216-223(2008).
  7. Rapid Development of Hydrophilicity and Protein Adsorption Resistance by Polymer Surfaces Bearing Phosphorylcholine and Naphthalene Groups, K. Futamura, R. Matsuno, T. Konno, M. Takai, and K. Ishihara, Langmuir, 24(18), 10340-10344(2008).
  8. Protein adsorption resistant surface on polymer composite based on 2D/3D controlled grafting of phospholipid polymers, T. Hoshi, R. Matsuno, T. Sawaguchi, T. Konno, M. Takai, and K. Ishihara, Appl. Surf. Sci., 255(2), 379-383(2008).
  9. Hydration of Phosphorylcholine Groups Attached to Highly Swollen Polymer Hydrogels Studied by Thermal Analysis, T. Morisaku, J. Watanabe, T. Konno, M. Takai, K. Ishihara, Polymer, 49(21), 4652-4657, (2008).
  10. Polymer Composite Biomaterials from Polyethylene/poly(vinyl acetate) Prepared in Supercritical Carbon Dioxide and Their Bulk and Surface Characterization, T. Hoshi, T. Sawaguchi, R. Matsuno, T. Konno, M. Takai, and K. Ishihara, J. Supercritical Fluids, 44, 391-399(2008).
  11. Surface tethering of phosphorylcholine groups onto poly(dimethylsiloxane) through swellingedeswelling methods with phospholipids moiety containing ABA-type block copolymers, J-H Seo, R. Matsuno, T. Konno, M. Takai, and K. Ishihara, Biomaterials, 29, 1367-1376(2008).
  12. Bioconjugated Phospholipid Polymer Biointerface for Enzyme-Linked Immunosorbent Assay, K. Nishizawa, T. Konno, M. Takai, and K. Ishihara, Biomacromolecules, 9, 403-407 (2008).
  13. Polymer Nanoparticles Covered with Phosphorylcholine Groups and Immobilized with Antibody for High-Affinity Separation of Proteins, Y. Goto, R. Matsuno, T. Konno, M. Takai, and K.Ishihara, Biomacromolecules, 9, 828-833(2008).
  14. Photografting of 2-Methacryloyloxyethyl Phosphorylcholine from Polydimethylsiloxane: Tunable Protein Repellency and Lubrication Property, T. Goda, R. Matsuno, T. Konno, M. Takai, and K. Ishihara, Colloid and Surfaces B : Biointerfaces, 63, 64-72(2008).
  15. Phosphorylcholine Group-immobilized Surface Prepared on Poly(dimethylsiloxane) Membrane by in situ Reaction for Its Reduced Biofouling, K. Ishihara, B. Ando, and M. Takai, Nanobiotechnology, 3(2), 83-88(2008).

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2007年 学術論文

  1. Biocompatibility and Drug Release Behavior of Spontaneously Formed Phospholipid Polymer Hydrogels, M. Kimura, M. Takai, and K. Ishihara, J. Biomed. Mater. Res. A, 80(1), 45-54 (2007).
  2. Microfluidic flow control on charged phospholipid polymer interface, Y. Xu, M. Takai, T. Konno and K. Ishihara, Lab Chip, 7, 199-206(2007).
  3. Nanostructured Biointerface Using Phospholipid Polymer for Highly Sensitive Immunoassays, K. Nishizawa, T. Konno, M. Takai, K. Ishihara, Trans. Mater. Res. Soc. Jpn., 32(2), 587-580 (2007).
  4. Well defined surface preparation with phospholipid polymers for highly sensitive immunoassays, N. Poilane, M. Takai, and K. Ishihara, Key Engineering Materials, 342-343, 889-892(2007).
  5. Coating of Anionic Phospholipid Polymer onto Silica-Based Microchannel to Minimize Nonspecific Protein Adsorption, Y. Xu, M. Takai, T. Konno, and K. Ishihara, Key Engineering Materials, 342-343, 797-800(2007).
  6. Surface Modification by Grafting with Biocompatible 2-Methacryloyloxyethyl Phosphorylcholine for Microfluidic Devices, J. Sibarani, T. Konno, M. Takai, and K. Ishihara, Key Engineering Materials, 342-343, 789-792(2007).
  7. Adhesion to Cells of Enzyme Conjugated Phospholipid Polymer Nanoparticles, T. Ito, T. Konno, M. Takai, and K. Ishihara, Key Engineering Materials, 342-343, 785-798(2007).
  8. Prevention of Tissue Adhesion by a Spontaneously Formed Phospholipid Polymer Hydrogel, M. Kimura, T. Konno, M. Takai, N. Ishiyama, T. Moro, and K. Ishihara, Key Engineering Materials, 342-343, 777-780(2007).
  9. Characterization of a self-oscillating polymer with periodic soluble-insoluble changes, M. Ueda, Y. Hara, T. Sakai, R. Yoshida, M. Takai, Y. Ito, Journal of Polymer Science Part B: Polymer Physics, 45, 1578-1588 (2007).
  10. Photoinduced phospholipid polymer grafting on parylene film: Advanced lubrication and antibiofouling properties, T. Goda, T. Konno, M. Takai and K. Ishihara, Colloids and Surfaces B; Biointerface, 54(1), 67-73(2007).
  11. Surface modification on microfluidic devices with 2-methacryloyloxyethyl phosphorylcholine polymers for reducing unfavorable protein adsorption, J. Sibarani, M. Takai, K. Ishihara, Colloids and Surfaces B; Biointerface, 54(1), 88-93(2007).
  12. Phospholipid polymer hydrogel formed by photodimerization of xinnamoyl groups in the polymer side chain, J. Yamaguchi, J. Watanabe, M. Takai, and K. Ishihara, J. Appl. Polym. Sci., 104, 44-50 (2007).
  13. Preparation of Molecular Dispersed Polymer Blend Composed of Polyethylene and Poly(vinyl acetate) by in situ Polymerization of Vinyl Acetate Using Supercritical Carbon Dioxide, T. Hoshi, T. Sawagushi, T. Konno, M. Takai, and K. Ishihara, Polymer, 48, 1573-1580(2007).

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2006年 学術論文

  1. Biofouling control by phospholipid polymer on microchannel DNA separation, K. Shimizu, Y. Nagase, M. Takai, K. Ishihara, Trans. Mater. Res. Soc. Jpn., 31(4), 1069-1072(2006).
  2. Healthcare chip based on integrated electrochemical sensors used for clinical diagnostics of BUN, CH. Chang, H. Ogawa, A. Oki, M. Takai, M. Nagai, H. Hisamoto, Y. Horiike, Jpn. J. Appl. Phys. 45, Part 1(5A), 4241-4247(2006).
  3. Maskless microfabrication of thermosensitive gels using microscope and application to controlled release microchip, R. Yoshida, K. Omata, K. Yamaura, M. Ebata, M. Tanaka and M. Takai, Lab. Chip, 6(10), 1384-1386(2006).
  4. Biomimetic phosphorylcholine polymer grafting from polydimethylsiloxane surface, Using UV-induced free radical polymerization, T. Goda, T. Konno, M. Takai, T. Moro, K. Ishihara, Biomaterials, 27(30), 5151-5160(2006).
  5. Water structure and improved mechanical properties of phospholipids polymer hydrogel with phosphorylcholine centered intermolecular cross-linker, T. Goda, J. Watanabe, M. Takai, K. Ishihara, Polymer, 47, 1390-1396(2006).
  6. Asymmetrically functional surface properties on biocompatible phospholipid polymer membrane for bioartificial kidney, H. Ueda, J. Watanabe, T. Konno, M. Takai, A. Saito, K. Ishihara, J. Biomed. Mater. Res., 77A, 19-27(2006).
  7. Synthesis of single-walled carbon nanotubes in mesoporous silica film and their field emission property, M. Tamura, T. Kemmochi, Y. Murakami, N. Chino, M. Ogura, S.P. Naik, M. Takai, Y. Tsuji, S. Maruyama, and T. Okubo, Appl. Phys. A, 84, 247-250(2006).
  8. Dual mode bioreactions on polymer nanoparticles covered with phosphorylcholine group, T.Ito, J. Watanabe, M. Takai, T. Konno, Y. Iwasaki, and K. Ishihara, Colloids and Surfaces B: Biointerface, 50, 55-60(2006).
  9. High functional hollow fiber membrane modified with phospholipid polymers for a liver assist bioreactor, S- H. Ye, J. Watanabe, M. Takai, Y. Iwasaki, and K. Ishihara, Biomaterials, 27, 1995-1962(2006).
  10. Piezoelectric immunosensor for bisphenol A based on signal enhancing step with 2-methacrolyloxyethyl phosphorylcholine polymeric nanoparticle, J-W Park, S. Kurosawa, H. Aizawa, Y. Goda, M. Takai, and K. Ishihara, Analyst, 131, 155-162 (2006).

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2005年 学術論文

  1. Spontaneously forming hydrogel from water-soluble random- and block-type phospholipid polymers, M. Kimura, K. Fukumoto, J. Watanabe, M. Takai, K. Ishihara, Biomaterials, 26, 6853-6862(2005).
  2. Photocrosslinkable and biocompatible phospholipid polymers for making microhydrogel in microfluidic devices, J. Yamaguchi, J. Watanabe, M. Takai, K. Ishihara, Trans. Mater. Res. Soc. Jpn, 30(4), 1081-1084(2005).
  3. Design of micro-biosensors in healthcare chip for convenient blood diagnostics, M. Takai, H. Ogawa, M. Nagai, A. Oki, K. Ishihara, and Y. Horiike, Trans. Mater. Res. Soc. Jpn, 30(4), 1247-1250(2005).
  4. High performance of enzymatic glucose sensor with polymeric mediator for blood analysis, Y. Himuro, M. Takai and K. Ishihara, Trans. Mater. Res. Soc. Jpn, 30(2), 417-420 (2005).
  5. Design of functional hollow fiber membranes modified with phospholipid polymers for application in total hemopurification system, S. H. Ye, J. Watanabe, M. Takai, Y. Iwasaki, K. Ishihara, Biomaterials, 26(24), 5032-5041 (2005).

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1991年〜2004年 学術論文

  1. Regulation of nano-surface properties by finely synthesized fluorinated phosphorylcholine polymers, Y. Inoue, J. Watanabe, M. Takai, and K. Ishihara, Trans. Mater. Res. Soc. Jpn, 29(1), 181-184 (2004).
  2. Development of healthcare chips checking life-style-related diseases, A. Oki, H. Ogawa, M. Nagai, S. Shinbashi, M. Takai, A. Yokogawa, Y. Horiike, Materials Science and Engineering C, 24, 837-843(2004).
  3. Development of a microglucose sensor for healthcare chip that allows multi-item measurement, M. Takai, S. Shinbashi, H. Ogawa, M. Nagai, K. Ishihara, and Y. Horiike, Kobunshi ronbunshu, 61(10), 555-560(2004). (Japanese)
  4. Surface characteristics of block-type copolymer composed of semi-fluorinated and phospholipid segments synthesized by living radical polymerization, Y. Inoue, J. Watanabe, M. Takai, and K. Ishihara, J. Biomater. Sci., Polymer Edition, 15(9), 1153-1166(2004).
  5. Fluorescence modulation of long DNA molecules adsorbed onto a microelectrode surface、M. Ueda, M. Takai, K. Taniguchi, Y. Takamura, Y. Horiike, Y. Baba Appl. Phys. Lett., 83(24), 5086-5088(2003).
  6. Healthcare chip for checking health condition from analysis of trance blood collected by painless needle, A. Oki, M. Takai, H. Ogawa, Y. Takamura, T. Fukasawa, J. Kikuchi, Y. Ito, T. Ichiki, and Y. Horiike, Jpn. J. Appl. Phys., 42, Part 1, (6A), 3722-3727 (2003).
  7. Amorphous silicon solar cells deposited at high growth rate, T. Nishimoto, M. Takai, H. Miyahara, M. Kondo, and A. Matsuda, J. Non-Crystl. Solids., 299-302, 1116-1122(2002).
  8. Electrode distance dependence of photo-induced degradation in hydrogenated amorphous silicon, H. Miyahara, M. Takai, T. Nishimoto, M. Kondo, and A. Matsuda, Solar energy materials and solar cells, 74(1-4), 351-356(2002).
  9. Anomalous behavior of electron temperature in silane glow discharge plasmas, M. Takai, T. Nishimoto, M. Kondo, and A. Matsuda, Thin Solid Films, 390, 83-87(2001).
  10. Effect of higher-silane formation on electron temperature in a silane glow-discharge plasma, M. Takai, T. Nishimoto, M. Kondo, and A. Matsuda, Appl. Phys. Lett., 77, 2828-2930(2000).
  11. Guiding principles for obtaining stabilized amorphous silicon at larger growth rates, M. Takai, T. Nishimoto, T. Takagi, M. Kondo, and A. Matsuda, J. Non-Crystl. Sol., 266-269, 90-94(2000).
  12. Excitation frequency dependence of the optical emission intensity vs. deposition rate relationship in silane plasmas, M. Takai, T. Takagi, T. Nishimoto, M. Kondo, and A. Matsuda, Surface & Coating Technology, 13, 50-53(2000).
  13. Effect of saccharin and thiourea on sulfur inclusion and coercivity of electroplated soft magnetic CoNiFe film, T. Osaka, T. Sawaguchi, F. Mizutani, T. Yokoshima, M. Takai, and Y. Okinaka, J. Electrochem. Soc., 146(9), 3295-3299(1999).
  14. Influence of crystalline structure and sulfur inclusion on corrosion properties of electrodeposited CoNiFe soft magnetic films, T. Osaka, M. Takai, T. Sogawa, T. Momma, K. Ohashi, M. Saito, and K. Yamada, J. Electrochem. Soc., 146(6), 2092-2096(1999).
  15. New soft magnetic CoNiFe plated films with high Bs=2.0-2.1T, T. Osaka, M. Takai, K. Hayashi, Y. Sogawa, IEEE Trans. Magn., 34(4), 1432-1434(1998).
  16. Newly developed inductive write head with electroplated CoNiFe film, K. Ohashi, Y. Yasue, M. Saito, K. Yamada, T. Osaka, M. Takai, and K. Hayashi, IEEE Trans. Magn., 34(4), 1462-1464(1998).
  17. A soft magnetic CoNiFe film with high saturation magnetic flux density and low coercivity, T. Osaka, M. Takai, K. Hayashi, K. Ohashi, M. Satio, K. Yamada, Nature, 6678(392), 796-798(1998).
  18. Increasing the resistivity of NiFeP films by means of electrodeposition, M. Takai, F. Mera, M. Kaseda, and T. Osaka, J. Mag. Soc. Jpn., 22, 629-632(1998).
  19. Electrodeposition of soft magnetic Ni-Fe-based film with high resistivity, M. Takai, A. Kondo, F. Mera, M. Kaseda, and T. Osaka, J. Surf. Finish. Soc. Jpn., 49(3), 80-84(1998).
  20. Study of the structural change due to heat-treatment in high resistivity electroless NiPC film, T. Osaka, T. Higashikawa, T. Iizuka, M. Takai, M. Kim, J. Electrochem. Soc., 145(7), 2419-2424(1998).
  21. High frequency permeability of electrodeposited CoNiFeS film with high Bs and high ρ, M. Takai, K. Hayashi, M. Aoyagi and T. Osaka, J. Magn. Soc. Jpn, 21(S2), 443-446(1997).
  22. Electrochemical preparation of soft magnetic CoNiFeS film with high saturation magnetic flux density and high resistivity, M. Takai, K. Hayashi, M. Aoyagi, and T. Osaka, J. Electrochem. Soc., 144(7), L203-L204(1997).
  23. Electroless NiB deposition for micro-patterned formation, M. Takai, S. Takefusa, T. Yokoshima, and T. Osaka, Proceedings of Electrochem. Soc., Vol.97-18, (1997).
  24. Thermal stability of high resistivity NiP thin film resistor formed by means of an electroless deposition, T. Osaka, M. Takai, T. Higashikawa, and A. Iizuka, J. Surf. Finish. Soc. Jpn., 48(4), 476-477(1997).
  25. Micro-patterning of NiB films by means of electroless plating, M. Takai, S. Takefusa, T. Yokoshima, and T, Osaka, J. Surf. Finish. Soc. Jpn., 48(1), 98-99(1997).
  26. New preparation of soft magnetic materials for high density MR head core by means of electrodeposition, M. Takai, K. Hayashi, M. Aoyagi, and T. Osaka, Trans. Metal Finishers Assoc. India, 5(4), 213-216(1996).
  27. Preparation and magnetic properties of CoNiFe thin films by electrodeposition, A. Nakamura, M. Takai, K. Hayashi, and T. Osaka, J. Surf. Finish. Soc. Jpn., 47(11), 934-938(1996).
  28. Control of magnetostriction on soft magnetic FeP/M(M=Ni, CoP)/FeP laminated film by an electrodeposition method, M. Takai, A. Nakamura, K. Hayashi, F. Asa, and T. Osaka, J. Mag. Soc. Jpn., 20, 433-436(1996).
  29. Preparation of soft magnetic FePCo thin films with high Bs by means of electrodeposition, M. Takai, A. Nakamura, R. Shigemoto, F. Asa, and T. Osaka, Proc. of Electrochem. Soc., Vol.95-18, 552-556(1996).
  30. Magnetic properties of electroless-deposited NiFeB and electrodeposited NiFe alloy thin films, M. Takai, K. Kageyama, S. Takefusa, A. Nakamura, and T. Osaka, Proc. of Electrochem. Soc., Vol.95-18, 570-579(1996).
  31. Magnetic properties of electroless-deposited NiFeB and electrodeposited NiFe alloy thin films, M. Takai, K. Kageyama, S. Takefusa, A. Nakamura, and T. Osaka, IEEE Trans. Electron., E78-C, 1530-1535(1995).
  32. Preparation of electrodepositied FeP films and their soft magnetic properties, T. Osaka, M. Takai, A. Nakamura, F. Asa, K. Ohashi, and H. Tachibana, J. Mag. Soc. Jpn., 18(S1), 187-190(1994).
  33. Preparation of soft magnetic FeP films by means of electrodeposition method, T. Osaka, M. Takai, A. Nakamura, and F. Asa, Denki Kagaku, 62(5), 453-454(1994).
  34. Development of Iron-Phosphorus electrodeposition bath for soft magnetic films with high saturation magnetization, M. Takai, A. Nakamura, F. Asa, and T. Osaka, J. Surf. Finish. Soc. Jpn., 45(4), 431-432(1994).
  35. Control of permeability of CoB soft magnetic films by heat treatment in a magnetic field, T. Osaka, M. Takai, K. Kageyama, J. Surf. Finish. Soc. Jpn., 45(2), 213-217(1994).
  36. Soft magnetic properties and microstructure of electroless-deposited CoB films, M. Takai, K. Kageyama, T. Homma, and T. Osaka, J. Surf. Finish. Soc. Jpn., 44(12), 1134-1137(1993).
  37. Effect of heat treatment in magnetic field on electroless-plated CoB soft magnetic films, T. Osaka, T. Homma, C-L. Tsai, M. Takai, K. Kageyama, Denki Kagaku, 61(8), 1017-1018(1993).
  38. Transmission electron microscopy study of electroless NiP and Cu films at initial deposition stage, T. Homma, K. Naito, M. Takai, T. Osaka, Y. Yamazaki, and T. Namikawa, J. Electrochem. Soc., 138(5), 1269-1274(1991).

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  21. 世界化学年特別企画を振りかえって、高井まどか、表面科学、33(3)、178 (2012)
  22. リン脂質ポリマーのナノ構造制御によるバイオデバイス界面の機能化、高井まどか、PHARMTECHJAPAN、27(13)、171-176 (2011)
  23. タンパク質吸着/非吸着をナノレベルで制御したバイオインターフェースへの細胞接着挙動、高井まどか・柴山崇 ・徐知勲・石原一彦、高分子、60巻10月号、736-738 (2011)
  24. 高感度血液分析チップのためのバイオ界面創製、高井まどか、表面科学、 32(9), 575-580 (2011).
  25. A Bioconjugated Phospholipid Polymer Biointerface with Nanometer-Scaled Structure for Highly Sensitive Immunoassays, K.Nishizawa, M. Takai, K. Ishihara, Methods Mol Biol , 751, 491-502 (2011).
  26. タンパク質吸着/非吸着をナノレベルで制御したバイオインターフェースへの細胞接着挙動、高井まどか、柴山 崇、徐 知勲、石原一彦、高分子、60(10)、736-738 (2011)
  27. Phospholipid Polymer Biointerfaces for Lab-on-a-Chip Devices, Y. Xu, M. Takai and K. Ishihara, Annals of Biomedical Engineering, 38(6), 1939-1953 (2010).
  28. Bioinspired interface for nanobiodevices based on phospholipid polymer chemistry,K. Ishihara, M. Takai, J. the Royal Society Interface, 6(3), S279 - S291 (2009).
  29. 生体へテロ界面のナノスケール制御、松崎典弥、明石満、高井まどか、石原一彦、荻野俊郎、表面科学、30(4), 193-201 (2009).
  30. Bioinspired Polymer Surfaces for nanodevices and Nanomedicine, Kazuhiko Ishihara, Kazuki Nishizawa, Yusuke Goto, Madoka Takai, Adv. Sci. Technol., 57, 5-17 (2008).
  31. リン脂質ポリマーを用いたマイクロ流体デバイスのバイオインターフェイス制御、高井まどか、James Sibarani, Yan Xu, 石原一彦、高分子論文集、65(3),228-234 (2008).
  32. バイオデバイス創製のための機能性ナノインターフェイス、高井まどか、マテリアルインテグレーション、9(20),44-49 (2007).
  33. ナノバイオ・インテグレーションマテリアル、石原一彦、高井まどか、金野智浩、松野亮介、ケミカルエンジニヤリング、6,1-6 (2007).
  34. バイオデバイス表面のナノ精密創製、石原一彦、高井まどか、機能材料、27(5), 7-15 (2007).
  35. µTASのためのバイオインターフェイス構築、西澤一樹、高井まどか、石原一彦、BIO INDUSTRY、24(2),12-19 (2007).
  36. 新しい医療デバイスとしての自発生成型ハイドロゲル、木村美都奈、高井まどか、石原一彦、未来材料、6(9),26-32 (2006).
  37. 高感度分子認識バイオチップにおけるバイオインターフェイス創製、高井まどか、バイオマテリアル–生体材料、24(3),186-193 (2006).
  38. 人工細胞膜表面を構築するPCサーフェイステクノロジーの新しい応用、石原一彦、高井まどか、金野智浩、渡邉順司、表面、43(5), 24-34 (2005).
  39. 分子診断と治療を可能とするバイオコンジュゲートナノ粒子、渡邉順司、朴鐘元、伊藤智美、松井謙次、高井まどか、石原一彦、化学工業、56(1),45-50 (2005).
  40. 在宅で健康診断できるヘルスケアチップの開発、堀池靖浩、S-H. Chang 沖明男、小川洋輝、高井まどか、久本秀明、Bionics, 5, 30-34 (2005).
  41. ヘルスケアチップの開発、小川洋輝、新橋里美、沖明男、高井まどか、長井政雄、堀池靖浩、化学装置、46(9), 81-85 (2004).
  42. マイクロバイオセンサーにおける生体適合性マテリアル、 高井まどか、BIO INDUSTRY、20 (12), 44-50 (2003).
  43. 化学センサーの応用分野 医療、 高井まどか、堀池靖浩、ぶんせき、10, 587-591 (2003).
  44. 極微量全血分離・分析を目指したヘルスケアチップの創製、堀池靖浩、沖明男、高村禅、小川洋輝、深沢孝之、高井まどか、斧田博之、日本ME学会、15(10), 2-7 (2001).
  45. Chemical-reaction dependence of plasma parameter in reactive silane plasma, M. Takai, T. Nishimoto, M. Kondo, and A. Matsuda, Science and Technology of Advanced Materials, 2, 495-503 (2001).
  46. Study on head core materials with high Bs by plating methods, T. Osaka, and M. Takai, J. Magn. Soc. Jpn., 21(S2), 433-437 (1997)
  47. 湿式法による高Bsヘッド磁極材料の開発、高井まどか、逢坂哲彌、日本応用磁気学会誌、21(2),51-57(1997)
  48. 湿式法による高機能性薄膜形成とその応用、逢坂哲彌、高井まどか、化学工業、47,909-915(1996)
  49. めっき法による軟磁性材料の作製とその特性、高井まどか、逢坂哲彌、表面科学、15(10),645-649(1994)
  50. 薄膜磁気ヘッド用メッキ形高飽和磁束密度材料、逢坂哲彌、高井まどか、電子材料、11,41-46(1994)

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著書、編書

  1. リキッドバイオプシー —体液中腫瘍マーカーの検出・解析技術—、第5章 マイクロファイバー技術を用いたCTC迅速高感度検出デバイス、高井まどか、落谷孝広監修、シーエムシー出版、P109-114 (2017)
  2. ヘルスケアを支えるバイオ計測、第4章 技術開発 3 在宅診断用ヘルスケアチップの開発、高井まどか、植田充美監修、シーエムシー出版、P72-78 (2016)
  3. バイオマテリアル: その基礎と先端研究への展開、3 マテリアル生体組織との反応 3・2材料側要素 §3・2・3疎水性相互作用と静電気的相互作用、高井まどか、岡野光夫監修、田畑泰彦, 塙隆夫編著、東京化学同人、P155-158 (2016)
  4. すごいぞ!身のまわりの表面科学 ツルツル、ピカピカ、ザラザラの不思議 ブルーバックス B-1940、第3章 人間・健康の表面科学 20 うるおいのある肌の秘密、高井まどか、日本表面科学会編、講談社、P82-84 (2015)
  5. すごいぞ!身のまわりの表面科学 ツルツル、ピカピカ、ザラザラの不思議 ブルーバックス B-1940、第3章 人間・健康の表面科学 22 汚れにくいコンタクトレンズ、高井まどか、日本表面科学会編、講談社、P88-89 (2015)
  6. すごいぞ!身のまわりの表面科学 ツルツル、ピカピカ、ザラザラの不思議 ブルーバックス B-1940、第3章 人間・健康の表面科学 23 人工関節をスムーズに動かすしくみって何?、高井まどか、日本表面科学会編、講談社、P90-92 (2015)
  7. 医療・ヘルスケア分野向けエレクトロニクス技術の最新展開、第2章 エレクトロニクスの要素技術各種の医療・ヘルスケア向け活用検討及び事例 第5節 血液適合性マテリアルを用いたバイオセンシング技術、高井まどか、情報機構、P106-112 (2014)
  8. 生体適合性制御と要求特性掌握から実践する高分子バイオマテリアルの設計・開発戦略、第2章 材料表面とバイオインターフェースにおける各種挙動の解析 第1節 高分子バイオインターフェースとQCM-Dによる細胞の接着挙動解析、高井まどか、サイエンス&テクノロジー、P259-266 (2014)
  9. 「ヘルスケア機器」第3章 ヘルスケア用センサの高感度化と計測技術、高井まどか、技術技報協会、P86-92 (2014)
  10. 問題と解説で学ぶ表面科学、高井まどか、日本表面科学会編集、共立出版、P.128 (2013)
  11. ヘルスケアチップ、高井まどか、先端バイオマテリアルハンドブック、監修 秋吉一成、石原一彦、山岡哲二、NTS、p.439-444、2012
  12. 高度なバイオ工学を実現するリン脂質サーフェィステクノロジー、石原一彦、渡邉順司、高井まどか、界面活性剤と両親媒性高分子の機能と応用、監修 国枝博信、坂本一民、シーエムシー出版、p.223-231、2010 普及版
  13. 血液分析チップ、高井まどか、バイオチップ実用化ハンドブック、監修 金子周一、堀池靖浩、NTS、p.529-536、2010
  14. Orientation Control of Antibody on Phospholipid Polymer Surface for Highly Sensitive Immunoassay System, N. Tajima, R. Matsuno, M. Takai and K. Ishihara, Special Proceeding Book of JST-CREST International Symposium, Nanobio-Interfaces in Relation to Molecular Mobility, edited by N. Yui, K. Ishihara, A. Kishida, and T. Yamaoka, JAIST PRESS, 2010
  15. Cell Adhesion Behavior on Various polymer Brush Surface Analyzed with Quartz Crystal Microbalance, T. Kitagawa, Y. Inoue, M. Takai, and K. Ishihara, Special Proceeding Book of JST-CREST International Symposium, Nanobio-Interfaces in Relation to Molecular Mobility, edited by N. Yui, K. Ishihara, A. Kishida, and T. Yamaoka, JAIST PRESS, 2010
  16. 細胞機能診断チップ、高井まどか、ソフトマター 分子設計・キャラクタリゼーションから機能性材料まで、高原淳、栗原和枝、前田瑞夫 編 丸善株式会社、2009
  17. 高井まどか、微量血液診断チップ、次世代医療のための高分子材料工学、監修 秋吉一成、岸田晶夫、シーエムシー出版、263-373、2008(解説)
  18. 高度なバイオ工学を実現するリン脂質サーフェイステクノロジー、石原一彦、渡邉順司、高井まどか、界面活性剤・両親媒性高分子の最新機能、シーエムシー出版、2005
  19. 微小バイオセンサーの創製と安定化技術、高井まどか、ナノバイオエンジニアリングマテリアル、監修:石原一彦、フロンティア出版、2004
  20. Y. Horiike, A. Oki, H. Ogawa, H. Onoda, M. Takai, H. Inokuchi, Y. Tezuka, S. Adachi, T. Fukazawa, T. Takamura, Lab-on-a-chip, Biochips aiming at advanced medical treatment, eds. R.E. Oosterbroek and A.van den Berg, Elsevier, 335-371(2003).

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主な国際学会でのProceedings等

  1. Efficienct capture and release of rare tumor cells using microfiber fabrics modified with multi-functional peptide, Akifumi Yoshihara, Ryota Sekine, Yoshiyuki Yamada, Madoka Takai, Society for Biomaterials, 2019.4.3-6.
  2. Redox phospholipid hydrogel based enzymatic bioelectrode for implantable glucose/O2 biofuel cell, Yixuan Huang, MasahiroYoshino, Madoka Takai, International Conference on BioSensors, BioElectronics, BioMedical Devices, BioMEMS/NEMS & Applications (Bio4Apps 2018/2019), 2019.1.6-8.
  3. Immobilization of enzyme in redox phospholipid hydrogel: Towards long-term application of implantable glucose/O2 biofuel cell, Yixuan Huang, Madoka Takai, G'L'owing Polymer Symposium in KANTO 2018, 2018.12.15
  4. PMPC-functionalized carbon-based sensor to detect dopamine in biological environment, Tinnlea Uen, Kushiro Keiichiro, Madoka Takai, IFOC-9(The Ninth International Forum on Chemistry of Functional Organic Chemicals), 2018.11.18-19.
  5. A study of anti-adhesion effects toward bacteria on cross-linked phospholipid polymer modified surface, Z. Lu, N. Isu, M. Takai, Biomaterial International 2018, 2018.7.22-26
  6. Enzyme entrapped within redox phospholipid hydrogel for enzymatic biofuel cell, Y.X. Huang, D.C.L. Tan, K.C. Poon, H. Sato, M. Yoshino, M, Takai, Biomaterial International 2018, 2018.7.22-26.
  7. Anticoaglation properties of cross-linking typed phosphorylcholine-based polymer film on silicone, S.-Y. Yeh, S. Hara, K. Higo, K. Kushiro, T. Isoyama, Y. Abe, M. Takai, Biomaterial International 2018, 2018.7.22-26.
  8. Combined effects of microtopography and other directional stimuli on cancer cell migration, Keiichiro Kushiro, Akihide Ryo, Madoka Takai, 10th International Symposium on Microchemistry and Microsystems 2018, 2018.6.19-21.
  9. Effective rapid bulk flow microfiber immunoassay systems compared to conventional diffusion-based immunoassay systems, Carlton F.O. Hoy, Keiichiro Kushiro, Madoka Takai, 10th International Symposium on Microchemistry and Microsystems 2018, 2018.6.19-21.
  10. Specific detection of circulating tumor cells on peptide-linked antibody modified microfiber, Akifumi Yoshihara, Yasuhito Kondo, Yoshiyuki Sunaga, Tadashi Nakaji Hirabayashi,Yuji Teramura, Madoka Takai, 10th International Symposium on Microchemistry and Microsystems 2018, 2018.6.19-21.
  11. Influence of fluid flow onMicrotopography-Guided Cell Migration and Underlying Mechanotransduction, Keiichiro Kushiro, Akihide Ryo and Madoka Takai, The 21st International Conference on Miniturized Systems for Chemistry and Life Sciences (Micro TAS 2017), 2017.10.22-26.
  12. Effect of Surface Fluidity on Cell Adhesion Behaviours, Makoto Noiri, Keiichiro Kushiro, Yuji Teramura and Madoka Takai, The 8th International Symposium on Surface Science (ISSS-8), 2017.10.22-26.
  13. Functionalization of Biocompatible Polymer Brush onto Carbon Based Sensor for Drug Detection, Uen tinnlea, Keiichiro Kushiro and Madoka Takai, The 8th International Symposium on Surface Science (ISSS-8), 2017.10.22-26.
  14. Control of Protein Adsorbtion by the Size Relation between Nanostructures and Protein Molecules, Yukari Hiraguchi, Naoya Okada, keiichiro Kushiro and Madoka Takai, The 8th International Symposium on Surface Science (ISSS-8),2017.10.22-26.
  15. Randomly Induced Mixed-Charge Polymer Brush: Novel Design of Zwitterionic Polymer, Tomoyuki Azauma, Madoka Takai and Yuji Teramura, 3rd intrenational conference on bioinspired and zwitterionic materials, 2017.10.18-20.
  16. Long-term stability of implantable device made of siliconewith cross-linking phospholipid polymer coating, Madoka Takai, Shu-Yun Yeh, Shintaro Hara, Takashi Isoyama, Yusuke Abe, SNU(CBE), 2017.7.31.
  17. Detection of cancer cells using the device of 3D microfiber with mult-functional peptides, Akifumi Yoshihara, Yuji Teramura, Yasuhito Kondo, Yoshiyuki Sunaga, Madoka Takai, RSC Tokyo International conference 2017, 2017.9.7
  18. Fabrication of electrospun polumeric fiber mats for the rapid and sensitive capture of antigen components, Carlton F.O. Hoy, Keiichiro Kushiro, Madoka Takai, RSC Tokyo International conference 2017, 2017.9.8.
  19. Polymeric nanoparticles containing temperatureresponsive fluorophores for intracellular temperature measurement, K. Asawa, K. Kushiro, M. Takai, Biomaterials International 2017, 2017.8.22.
  20. Fabrication of microfiber membrane capable of rapid diagnosis for immunoassay application, Carlton Hoy, keiichiro Kushiro, Madoka Takai, Biomaterials International 2017, 2017.8.22.
  21. Behavior of epitherial cells on polymeric nano-film with different viscoelasticity, T. Azuma, Y. Teramura, M. Takai, Biomaterials International 2017, 2017.8.21.
  22. Efficient cpture and release of cancer cells using functional peptide immobilized 3D microfiber substrate, 2017.7.30.
  23. Surface modification of biocompatible polymers on implanted device made by silicone, T. Madoka, T. Isoyama,2017.4.15
  24. Cell behavior on di-block polymer brush, Tomoyuki Azuma, Yuji Teramura, Madoka Takai, Tsinghua University-The University of Tokyo Joint Symposium on Multidiscipline, 2017.4.4.
  25. Rapid antigen detection through electrospun microfiber vacuum pump technology, Carlton Hoy, Keiichiro Kushiro, Madoka Takai, JSPS-DST Asian Academic Seminar 2016, 2016.12.17.
  26. 16. Effect of non-contacting sublayer of di-block polymer brush on cell behavior, Tomoyuki Azuma, Yuji Teramura, Madoka Takai, The 11th SPSJ International Polymer Conference (IPC 2016), 2016.12.15.
  27. Fabrication of hydrophilic surfaces by amphipathic block polymer coating for antifouling properties on ceramic surfaces, Aya Noguchi, Norifumi Isu, Madoka Takai, The 11th SPSJ International Polymer Conference (IPC 2016), 2016.12.15.
  28. Design of functional peptide for capture and release of circulating tumor cells, Akifumi Yoshihara, Takayuki Ueki, Yuji Teramura, Yasuhito Kondo, Yoshiyuki Sunaga, Madoka Takai, International conference on Single Cell Research 2016, 2016.11.16.
  29. Kushiro K, Takai M Overview of Takai Lab Research: Understanding and Designing Biointerfaces among Biomaterials, Proteins and Cells for Future Medical Care Chile-Japan Academic Forum, 2016.11.2-13.
  30. Kushiro K, Akihide R, Takai M “Changes in Cancer Cell Migration Behaviors with Increasing Malignancy on Microgroove Topography, The 20th International Conference on Miniaturized Systems for Chemistry and Life Sciences (MicroTAS 2016), 2016.10.9-13.
  31. Olofsson K, Carannante V, Frisk T, Kushiro K, Takai M, Önfelt B, Wiklund M Unanchored Micro-Tumors in an Ultrasonic Actuated Multi-Well Microplate with Protein Repellent Coating, The 20th International Conference on Miniaturized Systems for Chemistry and Life Sciences (MicroTAS 2016), 2016.10.9-13.
  32. Rapid Antigen Detection through Electrospun Microfibers with Vacuum Pump Technology, Carlton F. Hoy, Keiichiro Kushiro, Madoka Takai, Royal Society of Chemistry Tokyo International Conference 2016, 2016.9.7-9.
  33. Control of cell adhesion by nano-patterned fibronectins on dot-like domains using amphiphilic block copolymers, Yukari Hiraguchi, Kushiro Keiichiro, Yuji Teramura, Madoka Takai, 2nd International Symposium on Nanoarchitectonics for Mechanobiology, Tsukuba, Auditorium WPI-MANA building, Namiki NIMS, 2016.7.27-28.
  34. Evaluating the Progression of Cancer through PDMS Microtopography Platforms, Keiichiro Kushiro, Akihide Ryo, Madoka Takai, 4th Annual Workshop on Micro- and Nanotechnologies for Medicine: Emerging Frontiers and Applications, 2016.7.25-29.
  35. Investigation of cell adhesion mechanism by the distribution of adsorbed proteins on nano-scale phase-separated structures, Yukari Hiraguchi, Keiichiro Kushiro, Madoka Takai, European Chapter Meeting of the Tissue Engineering and Regenerative Medicine International Society 2016, 2016.6.28-7.1.
  36. Effects of Hydrogel Microgroove Microtopography on Cell Motility Behaviors, Keiichiro Kushiro, Akihide Ryo, Madoka Takai, EMN Meeting on Hydrogel Materials 2016, 2016.5.9-13.
  37. Using Microgroove Topography to Distinguish Non-cancerous and Cancerous Cell Types Through Differences in Directional Cell Motility, Keiichiro Kushiro, Madoka Takai, μTAS 2015, 2015.10.28 (2015).
  38. Distinguishing and Separating Normal and Cancerous Cells through Cell Motility on Microgroove Structures, Keiichiro Kushiro, Madoka Takai, 7th International Symposium on Microchemistry and Microsystems (ISMM2015), 2015.6.29 (2015).
  39. Investigation of Cell-Type-Independent Adhesion Mechanism by the Distriburion of Adorbed Proteins on Nano-Scale Phase-Sparated Structures, Y.Hiraguchi, K.Kushiro and M.Takai, 24th Annual Meeting of MRS-Japan 2014, 2014.12.10 (2014).
  40. Enhancing Cell Motility Using Grating Microtopographies, Keiichiro Kushiro and Madoka Takai, MicroTAS 2014, 2014.10.27 (2014).
  41. Rapid Detection of Circulating Tumor Cells with 3D Microfiber Membrane Device, Takayuki Ueki, Yuji Teramura, Madoka Takai, IUMRS-ICA2014, 2014.8.27 (2014).
  42. Cell Adhesion Behavior on Amphiphilic Block-Copolymer with Different Phase Separation, Madoka Takai, The 1st International Conference on Cell Encapsulation, 2014.7.7 (2014).
  43. The effect of nanophase-separated domains prepared by amphiphilic block-copolymer on cell adhesion, Madoka Takai, Yukari Hiraguchi, Keiichiro Kushiro, ICSE2013, 2013.11.18 (2013).
  44. Controlling the orientation of immobilized antibodies by the structure of phaseseparation using amphiphilic block copolymer, Yusuke Chimura and Madoka Takai, 2013 JSAP-MRS Joint Symposia, 2013.9.19 (2013).
  45. Hidenori Noguchi, Kohei Uosaki and Madoka Takai, The 4th Asian Biomaterials Congress, 2013.6.27-28 (2013).
  46. Fluorescent Polymeric Nanoparticle for Assay of Sialic Acid Expression on the Living Cell Membrane, Jaebum CHO, Keiichiro Kushiro and Madoka Takai, ICBS 2013, 2013.3.19-20 (2013).
  47. Soft-interfaces for Improving the Structure and Function of Adsorbed Protein, Madoka Takai, Kenji Takasu, SIMS 2013, 2013.3.15 (2013).
  48. Block-typed polymer brush that prevents the structure function of immobilized protein, Takasu Kenji, Madoka Takai, IUMRS-ICEM 2012, 2012.9.26 (2012).
  49. Ultra-Fast Immnoassay with 3D Structured Microfiber, Madoka TAKAI, Tatsuro FUKUSHIMA, 2012.6.28 (2012).
  50. Effect of monomer sequence of amphiphilic polymer on cell adhesion, Madoka Takai, 9th World Biomaterials Congress (WBC), 2012.6.2 (2012).
  51. Block-type phospholipid polymer brush retains structural function of immobilized proteins, Kenji Takasu, Madoka Takai, IACIS 2012, 2012.5.15 (2012).
  52. Very rapid immunoassay device with 3D structured polystyrene microfiber, T.Fukushima, M.Takai, SIMS 2012, 2012.3.19 (2012).
  53. Surface Property of PDMS Biochip Modified by Phospholipid Polymer with Trimethylsilyl Group, K.Nii , M.Takai, ICTF-15, 2011.11.9 (2011).
  54. ULTRA-FAST IMMUNOASSAY WITH 3D STRUCTURED MICROFIBER DEVICE, T. Fukushima, M.Takai, microTAS2011, 2011.10.4(2011).
  55. Surface Functionarization of Polydimethylsiloxane by Photo-Induced Polymerization of 2-Methacryloyloxyethyl Phosphorylcholine for Biodevices, Madoka Takai, Takanori Shirai, Kazuhiko Ishihara, ICPST-28, 2011.6.24(2011).
  56. Biocompatible phospholipid polymer interface for micro-bioanalytical systems,Madoka TAKAI, Kazuhiko ISHIHARA, ICAS 2011, 2011.5.25(2011).
  57. Simple and Functional Modification of PDMS Surface for Micro-channel Electrophoresis, T. Shirai, M. Takai and K. Ishihara, Proc. of micro-TAS 2010, 1946-1948(2010).
  58. A novel high-sensitive immunoassay interface with orientation-controlled antibodies, N. Tajima, M. Takai, and K. Ishihara, Pacifichem 2010, 2010.12.16(2010).
  59.         
  60. Guiding Principle of Biocompatible Polymer Surface Modification for PDMS Microfluidic Chips, M. Takai, K. Nishizawa, Y. Hirozane and K. Ishihara, Proc. of micro-TAS 2009, 1560-1563(2009).
  61. Microchip Immunoassay with 3D Nanostructured Phospholipids Polymer Biointerface, K. Nishizawa, M. Takai and K. Ishihara, Proc. of micro-TAS 2009, 1584-1586(2009).
  62. Micropatterned Biorecognition Surfaces on Nonbiofouling Polymer by Living Radical Photopolymerization for High Sensitivity Biosensing, M. Takai, J. Sibarani, K. Ishihara, MRS Proceedings, Volume1093E, CC01-04(2008).
  63. Dual Function surface prepared on polymeric substrate for highly Sensitive Immunoassay-based microarray biosensors, J. Sibarani, M. Takai, K. Ishihara, Proc. of μ-TAS 2008, 250-252(2008).
  64. Microchip Analysis of Cellular Respiratory Activity on PDMS Membrane having Gas Permselective Property, T. Shirai, M. Takai, T. Sakata, Y. Miyahara, and K. Ishihara, Proc. of μ-TAS 2008, 640-642(2008).
  65. Development of novel cell analytical system based on high sensitive QCM sensor, E. Watarai, M. Takai, and K. Ishihara, Proc. of μ-TAS 2007, 500-502(2007).
  66. Charged phospholipid polymer surfaces with high cell adhesion resistance for cell chip, Y. Xu, T. Konno, M. Takai, and K. Ishihara, Proc. of μ-TAS 2007, 424-426(2007).
  67. Nonbiofouling surfaces and micropatterned biorecognition layer on polymeric materials for highly sensitive microarray biosensors, J. Sibarani, T. Konno, M. Takai, and K. Ishihara, Proc. of μ-TAS 2007, 436-438 (2007).
  68. Phospholipid polymer surface showing their biocompatibility rapidly from dry to water environment for microfluidic devices, K. Futamura, T. Konno, M. Takai, and K. Ishihara, Proc. of μ-TAS 2007, 439-4311 (2007).
  69. Selective surface modification for microarray analysis by photochemical grafting of biocompatible phospholipid polymer, M. Takai, T. Goda, and K. Ishihara, Proc. of μ-TAS 2007, 1031-1033(2007).
  70. Nanostructured phospholipid biointerface for immunoassay microchip integrated with plasma separation membrane, K. Nishizawa, T. Konno, M. Takai and K. Ishihara, Proc. of μ-TAS 2007, 1291-1293(2007).
  71. DNA separation on nanochannel with Phospholipid Polymers, M. Takai, K. Shimizu, Y. Nagase, K. Ishihara, Proc. of μ-TAS 2006, Vol. 1, 885-857 (2006).
  72. Non-Biofouling surface on microchannel device by grafting with biocompatible 2-Methacryloyloxyethyl phosphorylcholine for obtaining high S/N ratio, J. Sibarani and T. Konno, M. Takai, K. Ishihara, Proc. of μ-TAS 2006, Vol. 1, 212-214 (2006).
  73. Protein antiadsorption modification by negatively charged phospholipid polymer for microsystem needing electroosmotic flow, Y. Xu and T. Konno, M. Takai, K. Ishihara, Proc. of μ-TAS 2006, Vol. 1, 215-217 (2006).
  74. Electrosprayed phospholipid polymer surface for enhanced sensitive ELISA chip, K. Nishizawa, M. Takai and K. Ishihara, Proc. of μ-TAS 2006, Vol. 1, 335-337 (2006).
  75. Protein adsorption resistance on biochip surface by phospholipid polymers, M. Takai, J. Sibarani, Y. Xu, and K. Ishihara, Abstract of 20th European conference on biomaterial, Nantes, France 2006.9.28 (2006).
  76. Design of Blood Glucose Sensor for Multichannel Healthcare Chip, M. Takai, Y. Himuro, H. Ogawa, M. Nagai, K. Ishihara and Y. Horiike, 208 Electrochemical Society, Los angeles Meeting abstract, 2005, 1316(2005).
  77. Protein adsorption resistance by biocompatible phospolipid polymers as a surface modification on PDMS, K. Ishihara, J. Sibarani and M. Takai, Proc. of μ-TAS 2005, Vol.1, 253-255(2005).
  78. Newly designed biocompatible polymers having phospholipid polar group for Electro-osmosis pump actuated cell sorter chip, M. Takai, H. Onoda, K. Ishihara, and Yasuhiro Horiike, Proc. of μ-TAS 2004, Vol.2, 113-115(2004).
  79. Disposable healthcare chip allowing multi-item diagnostics in a rrace of blood, M. Takai, S. Shinbashi, H. Ogawa, A. Oki, M. Nagai, and Y. Horiike, Proc. of μ-TAS 2003, Vol.1, 403-406(2003).
  80. High rate growth of amorphous and microcrystalline silicon, M. Kondo, T. Nishimoto, M. Takai, S. Suzuki, Y. Nasuno, and A. Matsuda, Technical Digest of the International PVSEC-12, Jeju, Korea, 41-44(2001).
  81. Chemical-reaction dependence of plasma parameter in reactive silane plasma, M. Takai, T. Nishimoto, M. Kondo, and A. Matsuda, Proceedings of Plasma Science Symposium 2001 (PSS-2001) / The 18th Symposium of Plasma Processing (SPP-18), Kyoto, 745-748(2001).
  82. Effect of substrate temperature on plasma parameter in high rate growth of stable amorphous silicon, M. Takai, T. Nishimoto, M. Kondo, and A. Matsuda, Proceedings of 28th IEEE photovoltaic specialists conference-2000, Alaska, 21-724 (2000).
  83. Silane-plasma diagnoses and stable a-Si:H growth at high rate, M. Takai, T. Nishimoto, M. Kondo, and A. Matsuda, Proceedings of the17th Symposium of Plasma Processing, Nagasaki, 9-12(2000).
  84. Effect of plasma parameters on the stability of a-Si:H prepared at high growth rate, M. Takai, T. Nishimoto, M. Kondo, and A. Matsuda, Proceedings of 11th International photovoltaic science and engineering conference, 193-194(1999).

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受賞

  1. 応用物理学会第11回(2017年度)フェロー賞、機能性ナノ構造材料の創製とバイオデバイスへの応用、高井まどか
  2. Award for Encouragement of Research in IUMRS-ICAM 2017, Keiichiro Kushiro, Influence of Microtopography and Fluid Flow on Cancer Cell Migration, 2017.11.10
  3. Biomaterials Innovation Research Center Mention for Scientific Merits, 3rd Annual Workshop on Micro and Nanotechnologies for Medicine: Emerging Frontiers and Applications, Keiichiro Kushiro, 2015.7.27-31
  4. 平成24年9月11日、第3回 女性研究者研究業績・人材育成賞(小館香椎子賞)(応用物理学会)高井まどか
  5. 平成22年6月11日、平成21年度化学とマイクロ・ナノシステム研究会奨励賞、マイクロチップの界面機能化による高感度バイオ分析に関する研究、化学とマイクロ・ナノシステム研究会、高井まどか
  6. June 18, 2008, Interfinish 2008 17th World Interfinish Congress & Exposition, Invited Paper Award, "Nonbiofouling Surface on Microchips for High Resolution Biosensing" Madoka TAKAI
  7. 平成18年2月27日 表面技術協会技術賞、高密度用超小型磁気ヘッドの開発研究と実用化、(社)表面技術協会、逢坂哲彌、高井まどか、大橋啓之、斉藤美紀子、溝下義文、越川誉生
  8. 平成15年5月9日、第24 回本多記念研究奨励賞、化学反応プロセス制御による新機能性薄膜材料の創製 高井まどか
  9. March 10, 2003, FNB(International Symposium on Fusion of Nano and Bio Technologies), Poster Presentation Award ”Development of disposable health-care chip system for blood diagnostics” H. Ogawa, A. Oki, S. Shinbashi, M. Takai, Y. Takamura, J. Kikuchi, M. Nagai, and Y. Horiike
  10. September 17, 2002, SSDM 2002(International Conference on Solid State Device and Materials), Paper Award, “Biochip Checking Health Condition from Analysis of Trace Blood Collected by Painless Needle”, A. Oki, H. Ogawa, Y. Takamura, M. Takai, T. Fukasawa, J. Kikuchi, Y. Ito, T. Ichiki, and Y. Horiike
  11. June 15, 2001, 12th international PVSEC (photovoltaic science and engineering conference), Paper Award, “High Rate Growth of Amorphous and Microcrystalline Silicon” K. Michio, S. Suzuki,Y. Nasuno, T.Nishimoto, M. Takai, and A. Matsuda
  

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学生受賞

  1. 優秀ポスター賞(第71回高分子学会年次大会)、佐藤健裕、生体内埋め込み型酵素燃料電池に用いる双性イオン高分子ナノゲルの合成と評価、2022. 5. 27
  2. Student Award (INTERFINISH 2020 20th Interfinish World Congress), Huang Yixuan, Electrodeposited Gold/SUS Electrodes Modified with Enzyme Immobilized Redox Zwitterionic Hydrogel for Bioanodes of Glucose Enzymatic Biofuel Cells, 2021. 9. 6-8
  3. 優秀ポスター賞(第70回高分子学会年次大会)、内田和杜、種々の疎水性アンカーを持つ架橋型MPCポリマーの合成と表面修飾  2021. 5. 28
  4. 2nd G’L’owing Polymer Symposium in Kanto, Best Presentation Award, Tingbi Zhao, 2019. 11. 30
  5. パブリシティ賞(第68回高分子討論会)、黄依璇、生体内埋め込み型を目指した酵素燃料電池用双性イオンポリマーゲル材料の開発 2019.9.11
  6. ISMM 2018 Award、Akifumi Yoshihara, Specific Detection of Circulating Tumor Cells on Peptide-Linked Antibody Modified Microfiber, The 10th International Symposium on Microchemistry and Microsystems, 2018.6.21
  7. 第39回日本バイオマテリアル学会 ハイライト講演受賞、野入信人、ペプチド修飾PEG脂質を用いた流動性平面膜上における細胞接着挙動、2017.11.20
  8. 優秀ポスター賞(第15回東京大学生命科学シンポジウム)、東倫之、合成高分子界面における初期生体反応の解析  2015. 6. 27
  9. 第24回日本MRS年次大会奨励賞、平口侑香里、Investigation of Cell-Type-Independent Adhesion Mechanism by the Distribution of Adsorbed Proterins on Nano-Scale Phase-Separated Structures  2015. 1. 9
  10. 優秀ポスター賞(第63回高分子学会年次大会)、長橋孝司、医用シリコーンへの長期安定性に優れた生体親和性高分子修飾技術の確立  2014. 5. 29
  11. 若手研究者奨励賞(ICTF-15)、高須健司、ブロック型リン脂質ポリマーブラシに固定化したタンパク質の変性抑制  2011. 11. 11
  12. 優秀ポスター賞(第21回化学とマイクロ・ナノシステム研究会)、柴山 崇、ブロック共重合体を用いたナノドメイン構造表面における細胞接着挙動 2010.6.11
  13. 第19回日本MRS学術シンポジウム奨励賞(MRS−J)、李 素潤、酵素の直接電子移動を可能とするナノ構造チタン酸化膜、2009.12.9
  14. 優秀ポスター賞(東京コンファレンス2009)、西澤 一樹、ナノ構造表面を用いた高感度マイクロチップイムノアッセイ、2009.9.4
  15. 若手研究者優秀賞(日本バイオマテリアル学会シンポジウム), 西澤 一樹、高感度免疫分析のための高密度バイオ分子固定化リン脂質ポリマーナノ構造表面の構築、2008.11.17
  16. Poster Award (NanoBio Seoul 2008), Ji-Hun Seo, "Regulation of protein adsorption on nano-ordered surface of block copolymer with phosphorylcholine groups" 2008.10.31
  17. Young Investigator Travel Award (8th World Biomaterials Congress (WBC)), Jiyeon Choi、"Multilayered Phospholipid Polymer Hydrogels for Regulating Cell Functions by Self-Tuning Bioactive Agent Concentration" 2008.5.28
  18. 若手研究者奨励賞(MRS-J), 西澤 一樹、"高密度バイオ分子固定化リン脂質ポリマー表面を用いたマイクロチップイムノアッセイ" 2008.3.1
  19. 若手研究者優秀賞(日本バイオマテリアル学会シンポジウム)、崔 志連、"リン脂質ポリマー積層ゲルによる生理活性物質放出挙動の時間制御と細胞増殖性の最適化" 2007.11. 26
  20. Student Travel Achivement Recognition (SFB STAR) Honorable Mention, Etsuko Watarai, "Development of novel bioanalytical system based on QCM for single cell/materials interactions" 2007.4.27
  21. 若手研究者奨励賞(MRS-J), Ji-Hun Seo, "Surface patterning of phosphorylcholine unit by synthesis of well-defined block copolymer containing 2-methacryloyloxyethyl phosphorylcholine" 2007.3.1
  22. 2006 best oral presentation award (20th European Conference on Biomaterials), Nadia Poilane, "Surface modification with phospholipid copolymers for immunoassays" 2006.9.27

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