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Publications

2024
  1. Ryuki Kinjo, Yuya Morimoto, Byeongwook Jo, and Shoji Takeuchi: Biohybrid bipedal robot powered by skeletal muscle tissue, Matter, 2024 [Web]
2023
  1. Hisatoshi Mimura, Toshihisa Osaki, Sho Takamori, Kenji Nakao, Shoji Takeuchi: Lipid Bilayer Reformation Using the Wiping Blade for Improved Ion Channel Analysis, Analytical Chemistry, 95, 17354-17361, 2023 [Web], selected as the supplementary cover of the issue
  2. Koji Sakai, Shigenori Miura, Tetsuhiko F. Teshima, Toichiro Goto, Shoji Takeuchi and Masumi Yamaguchi: Small-Artery-Mimicking Multi-Layered 3D Co-Culture in Self-Folding Porous Graphene-Based Film, Nanoscale Horizons, vol. 8, pp. 1529-1536, 2023 [Web]
  3. Kazuma Morita, Yuya Morimoto, and Shoji Takeuchi: Biohybrid tensegrity actuator driven by selective contractions of multiple skeletal muscle tissues, Biofabrication, 15:045002, 2023 [Web]
  4. Fiona Louis, Mai Furuhashi, Haruka Yoshinuma, Shoji Takeuchi, and Michiya Matsusaki: Mimicking Wagyu Beef Fat in Cultured Meat: Progress in Edible Bovine Adipose Tissue Production with Controllable Fatty Acid Composition, Materials Today Bio, 21: 100720, 2023 [Web]
  5. Sho Takamori, Hisatoshi Mimura, Toshihisa Osaki, and Shoji Takeuchi: A microfluidic device for selective pairing and electrofusion of cell-sized liposomes, Sensors and Actuators B: Chemical, 393:134226, 2023 [Web]
  6. Kazuto Ogishi, Toshihisa Osaki, Hisatoshi Mimura, Izumi Hashimoto, Yuya Morimoto, Norihisa Miki, and Shoji Takeuchi: Real-time quantitative characterization of ion channel activities for automated control of a lipid bilayer system, Biosensors and Bioelectronics, 237:115490, 2023 [Web]
  7. Izumi Hashimoto, Toshihisa Osaki, Hirotaka Sugiura, Hisatoshi Mimura, Sho Takamori, Norihisa Miki, and Shoji Takeuchi: Reproducible re-formation of a bilayer lipid membrane using micro air bubbles, Droplet, 2023;e73, 2023 [Web]
  8. Satoshi Inagaki, Yuya Morimoto, Ikuo K. Suzuki, Kazuo Emoto, and Shoji Takeuchi: Co-culture system of human skin equivalents with mouse neural spheroids, Journal of Bioscience and Bioengineering, vol. 136(3), pp. 239-245, 2023 [Web]
  9. Minghao Nie, Shogo Nagata, Haruka Oda and Shoji Takeuchi: Millimeter-thick 3D tissues constructed by densely cellularized core–shell microfluidic bioprinting, Biofabrication, 15:035010, 2023[Web
  10. Aiko Hibino, Futoshi Nakamura, Mai Furuhashi and Shoji Takeuchi : How can the unnaturalness of cellular agricultural products be familiarized?: Modeling public attitudes toward cultured meats in Japan, Frontiers in Sustainable Food Systems, 7:1129868, 2023[Web
2022
  1. Miki Matsumoto, Yuya Morimoto, Toshiro Sato, and Shoji Takeuchi : Microfluidic Device to Manipulate 3D Human Epithelial Cell-Derived Intestinal Organoids, Micromachines, 2022[Web
  2. Sho Takamori, Pietro Cicuta, Shoji Takeuchi, and Lorenzo Di Michele : DNA-assisted selective electrofusion(DASE) of Escherichia coli and giant lipid vesicles, Nanoscale, Issue 38, pp. 14255-14267, 2022[Web
  3.  Michio Kawai, Minghao Nie, Haruka Oda, Yuya Morimoto, and Shoji Takeuchi: Living skin on a robot, Matter, Volume 5, Number 7, pp. 2190-2208, 2022[Web], selected as the top cover of the issue
  4.  Byeongwook Jo, Yuya Morimoto, and Shoji Takeuchi: 3D-Printed Centrifugal Pump Driven by Magnetic Force in Applications for Microfluidics in Biological Analysis, Advanced Healthcare Materials, 2200593, 2022 [Web
  5.  Midori Kato-Negishi, Jun Sawayama, Masahiro Kawahara, and Shoji Takeuchi: Cell fiber-based 3D tissue array for drug response assay, Scientific Reports, 12:7870, 2022 [Web
  6. Elsa Mazari-Arrighi, Teru Okitsu, Hiroki Teramae, Hoshimi Aoyagi, Mahiro Kiyosawa, Mariko Yano, François Chatelain, Alexandra Fuchs, and Shoji Takeuchi: In Vitro Proliferation and Long-Term Preservation of Functional Primary Rat Hepatocytes in Cell Fibers, Scientific Reports, 12:8813, 2022[Web
  7. Shigenori Miura, Yuya Morimoto, Tomomi Furihata, and Shoji Takeuchi: Functional analysis of human brain endothelium using a microfluidic device integrating a cell culture insert, APL Bioenginneering, Volume 6, Issue 1, 2022 [Web]
  8. Kazuto Ogishi, Toshihisa Osaki, Yuya Morimoto and Shoji Takeuchi: 3D printed microfluidic devices for lipid bilayer recordings, Lab on a chip, Volume 22, Number 5, pp. 851-1034, 2022 [Web], selected as the inside front cover of the issue  
  9. Yuya Morimoto and Shoji Takeuchi: Biohybrid softrobot driven by contractions of skeletal muscle tissue, Journal of Robotics and Mechatronics, vol.34,(2), pp260-262, 2022, [Web] (review paper)
2021
  1. Hironori Sugiyama, Toshihisa Osaki, Shoji Takeuchi, and Taro Toyota: Role of negatively charged lipids achieving rapid accumulation of water-soluble molecules and macromolecules into cell-sized lipo-somes against a concentration gradient, Langmuir, Volume 38, Issue 1, pp. 112-121, 2021 [Web]
  2. Byeongwook Jo, Yuya Morimoto, and Shoji Takeuchi: Skeletal muscle-adipose cocultured tissue fabricated using cell-laden microfibers and a hydrogel sheet, Biotechnology and Bioengineering, Volume 119, Issue 2, pp. 636-643, 2021 [Web]
  3. Sacha Salameh, Nicolas Tissot, Kevin Cache, Joaquim Lima, Itaru Suzuki, Paulo André Marinho, Maité Rielland, Jérémie Soeur, Shoji Takeuchi, and Stéphane Germain: A perfusable vascularized full-thickness skin model for potential topical and systemic applications, Biofabrication, Vol. 13, No. 3, 035042, 2021 [Web]
  4. Minghao Nie, Ai Shima, Kenta Fukushima, Yuya Morimoto, and Shoji Takeuchi: A cylindrical molding method for the biofabrication of plane-shaped skeletal muscle tissue, Micromachines, vol.12(11), 1411, 2021 [Web]
  5. Yuya Morimoto, Shogo Nagata, Miki Matsumoto, Keisuke Sugahara, Shigenori Miura, and Shoji Takeuchi: Microfluidic system for applying shear flow to endothelial cells on culture insert with collagen vitrigel membrane, Sensors and Actuators B: Chemical, Vol. 348, 130675, 2021 [Web
  6. Byeongwook Jo, Minghao Nie, and Shoji Takeuchi: Manufacturing of animal products by the assembly of microfabricated tissues, Essays in Biochemistry, Vol. 65, Issue 3, pp. 611-623, 2021 (review paper) [Web
  7. Yusuke Hirata, Haruka Oda, Toshihisa Osaki, and Shoji Takeuchi: Biohybrid sensor for odor detection, Lab on a chip, Vol. 21, No. 14, pp. 2643-2657, 2021 (review paper) [Web], selected as the top cover of the issue
  8. Fumisato Ozawa, Shogo Nagata, Haruka Oda, Shigeharu G. Yabe, Hitoshi Okochi, and Shoji Takeuchi: Lotus-root-shaped cell-encapsulated construct as a retrieval graft for long-term transplantation of human iPSC-derived β-cells, iScience, 102309, 2021 [Web
  9. Hiroki Yasuga, Emre Iseri, Xi Wei, Kerem Kaya, Giacomo Di Dio, Toshihisa Osaki, Koki Kamiya, Polyxeni Nikolakopoulou, Sebastian Buchmann, johan Sundin, Shervin Bagheri, Shoji Takeuchi, Anna Herland, Norihisa Miki, and Wouter van der Wijngaart: Fluid interfacial energy drives the emergence of three-dimensional periodic structures in micropillar scaffolds, Nature Physics, volume 17, Issue 7, pp. 794-800, 2021 [Web]   
  10. Mai Furuhashi*, Yuya Morimoto*, Ai Shima, Futoshi Nakamura, Hiroshi Ishikawa, and Shoji Takeuchi: Formation of contractile 3D bovine muscle tissue for construction of millimetre-thick cultured steak, Science of Food, 5, No. 6, 2021 [Web](*: equal contribution)
  11. Yohei Maruyama, Mitsuhiro Sugawa, Shin Yamaguchi, Tim Davies, Toshihisa Osaki, Takuya Kobayashi, Masahiko Yamagishi, Shoji Takeuchi, Masanori Mishima, and Junichiro Yajima: CYK4 Relaxes the Bias in the Off-Axis Motion by MKLP1 Kinesin-6, Communications Biology, Vol. 4 (2021), 180, 2021 [Web]
  12. Taishi Tonooka, Toshihisa Osaki, Koji Sato, Ryuji Kawano, and Shoji Takeuchi: Lipid Bilayer on a Microdroplet Integrated with a Patterned Ag/AgCl Microelectrode for Voltage-Clamp Fluorometry of Membrane Transport, Sensors and Actuators B: Chemical, 129643, 2021 [Web]
  13. Tetsuya Yamada, Hirotaka Sugiura, Hisatoshi Mimura, Koki Kamiya, Toshihisa Osaki, and Shoji Takeuchi: Highly Sensitive VOC Detectors Using Insect Olfactory Receptors Reconstituted into Lipid Bilayers, Science Advances, Volume 7, No 3, eabd2013, 2021 [Web]
  14. Haruka Oda*, Kazunori Kihara*, Yuya Morimoto, and Shoji Takeuchi: Cell-based biohybrid sensor device for chemical source direction estimation, Cyborg and Bionic Systems, Volume 1, Number 1, 8907148, 2021 [Web] (*: equal contribution), selected as the top cover of the issue
  15. Marco Costantini, Stefano Testa, Ersilia Fornetti, Claudia Fuoco, Minghao Nie, Sergio Bernardini, Alberto Rainer, Jacopo Baldi, Carmine Zoccali, Roberto Biagini, Luisa Castagnoli, Libero Vitiello, Bert Blaauw, Dror Seliktar, Wojciech Święszkowski, Piotr Garstecki, Shoji Takeuchi, Gianni Cesareni, Stefano Cannata, and Cesare Gargioli: Biofabricating murine and human myo-substitutes for rapid volumetric muscle loss restoration, EMBO Molecular Medicine, Volume 13, issue 2, e12778, 2021 [Web]
  16. Nobuo Misawa, Satoshi Fujii, Koki Kamiya, Toshihisa Osaki, and Shoji Takeuchi: Efficient Lipid Bilayer Formation by Dipping Lipid-Loaded Microperforated Sheet in Aqueous Solution, Micromachines, Volume 12, Issue 1, 53, 2021 [Web]
  17. Koki Kamiya, Toshihisa Osaki, and Shoji Takeuchi: Formation of nano-sized lipid vesicles with asymmetric lipid components using a pulsed-jet flow method, Sensors and Actuators B: Chemical, Volume 327, 128917, 2021 [Web]
2020
  1. Yoshihisa Ito, Yusuke Izawa, Toshihisa Osaki, Koki Kamiya, Nobuo Misawa, Satoshi Fujii, Hisatoshi Mimura, Norihisa Miki, and Shoji Takeuchi: A Lipid-Bilayer-On-A-Cup Device for Pumpless Sample Exchange, Micromachines, Volume 11, Issue 12, 1123, 2020 [Web]
  2. Keigo Nishimura, Minghao Nie, Shigenori Miura, and Shoji Takeuchi: Microfruidic device for the analysis of angiogenic sprouting under bidirectional biochemical gradients, Micromachines, volume 11, Issue 12, 1049, 2020 [web] selected as the cover of the Issue
  3. Minghao Nie and Shoji Takeuchi: 3D biofabrication using living cells for applications in biohybrid sensors and actuators, ACS Applied Bio Materials, Volume 3, Issue 12, pp.8121-8126 (review paper), 2020 [Web]
  4. Yoshihisa Ito, Toshihisa Osaki, Koki Kamiya, Tetsuya Yamada, Norihisa Miki, and Shoji Takeuchi: Rapid and resilient detection of toxin pore formation using a lipid bilayer array, Small, Volume 16, Issue 49, 2005550, 2020 [Web] selected as the back cover of the issue
  5. Jun Sawayama and Shoji Takeuchi: Long-term Continuous Glucose Monitoring Using A Fluorescence-based Biocompatible Hydrogel Glucose Sensor, Advanced Healthcare Materials, Vol. 10, Issue 3, 20001286, 2020 [Web]
  6. Kanae Sakai, Shigenori Miura, Jun Sawayama, and Shoji Takeuchi: Membrane-integrated Glass Chip for Two-Directional Observation of Epithelial Cells, Sensors and Actuators B: Chemical, Volume 326, 128861, 2020 [Web]
  7. Minghao Nie and Shoji Takeuchi: Luer-lock valve: a pre-fabricated pneumatic valve for 3-D printed microfluidic automation, Biomicrofluidics, vol.14, Issue 4, 044115, 2020 [Web]
  8. Ai Shima, Shogo Nagata, and Shoji Takeuchi: Three-dimensional co-culture of blood-brain barrier-composing cells in a culture insert with a collagen vitrigel membrane, In Vitro Cellular & Developmental Biology – Animal, 56(7), pp. 500-504, 2020 [Web]
  9. Hironori Sugiyama, Toshihisa Osaki, Shoji Takeuchi, and Taro Toyota: Perfusion Chamber for Observing Liposome-based Cell Model Prepared by Water-in-oil Emulsion Transfer Method, ACS Omega, Volume 5, Issue 31, pp.19429-19436, 2020 [Web]
  10. Jun Sawayama, Teru Okitsu, Akihiro Nakamata, Yoshihiro Kawahara, and Shoji Takeuchi: Hydrogel Glucose Sensor with In Vivo Stable Fluorescence Intensity Relying on Antioxidant Enzymes for Continuous Glucose Monitoring, iScience, vol. 23, Issue 6, 101243, 2020 [Web]
  11. Arianna Menciassi, Shoji Takeuchi, and Roger D. Kamm: Biohybrid systems: Borrowing from nature to make better machines, APL Bioengineering, vol. 4(2), 020401, 2020 [Web] (review paper)
  12. Shogo Nagata, Fumisato Ozawa, Minghao Nie, and Shoji Takeuchi: 3D culture of functional human iPSC-derived hepatocytes using a core-shell microfiber, PLOS ONE, 15(6): e0234441, 2020 [Web]
  13. Takaichi Watanabe, Teru Okitsu, Fumisato Ozawa, Shogo Nagata, Hitomi Matsunari, Hiroshi Nagashima, Masaki Nagaya, Hiroki Teramae, and Shoji Takeuchi: Millimeter-thick xenoislet-laden fibers as retrievable transplants mitigate foreign body reactions for long-term glycemic control in diabetic mice, Biomaterials, Volume 255, 120162, 2020 [Web]
  14. Minghao Nie, Shogo Nagata, Hoshimi Aoyagi, Akane Itou, Ai Shima, and Shoji Takeuchi: Cell-laden microfibers fabricated using μL cell-suspension, Biofabrication, vol. 12(4), 045021, 2020  [Web]
  15. Yuya Morimoto, Hiroaki Onoe, and Shoji Takeuchi: Biohybrid robot with skeletal muscle tissue covered with a collagen structure for moving in air, APL Bioengineering, vol. 4(2), 026101, 2020 [Web]
  16. Keisuke Sugahara, Yuya Morimoto, Sho Takamori, Shoji Takeuchi: A dynamic microarray device for pairing and electrofusion of giant unilamellar vesicles, Sensors and Actuators B: Chemical, vol. 311, 127922, 2020 [Web]
  17. Saori Nonaka, Emil Salim, Koki Kamiya, Aki Hori, Firzan Nainu, Rangga Meidianto Asri, Ayu Masyita, Takumi Nishiuchii, Shoji Takeuchi, Noriyuki Kodera, and Takayuki Kuraishi: Molecular and functional analysis of pore-forming toxin Monalysin from entomopathogenic bacterium Pseudomonas entomophila, Frontiers in Immunology, vol. 11, 520, 2020 [Web]
  18. Hironori Sugiyama, Toshihisa Osaki, Shoji Takeuchi, Taro Toyota: Hydrodynamic accumulation of small molecules and ions into cell-sized liposomes against a concentration gradient, Communications Chemistry, vol. 3, 3, 2020 [Web]
  19. Ai Shima, Akane Itou, and Shoji Takeuchi: Cell fibers promote proliferation of co-cultured cells on a dish, Scientific Reports, vol. 10, 288, 2020 [Web]
2019
  1. Tetsuya Yamada, Koki Kamiya, Toshihisa Osaki, and Shoji Takeuchi: A pumpless solution exchange system for nanopore sensors, Biomicrofluidics, vol. 13, 064104, 2019 [Web]
  2. Koki Kamiya, Toshihisa Osaki, and Shoji Takeuchi: Formation of vesicles-in-a-vesicle with asymmetric lipid components using a pulsed-jet flow method, RSC Advances, vol. 9(52), pp. 30071-30075, 2019 [Web].
  3. Dong-Chel Shin, Yuya Morimoto, Jun Sawayama, Shigenori Miura, and Shoji Takeuchi: Centrifuge-based Step Emulsification Device for Simple and Fast Generation of Monodisperse Picoliter Droplets, Sensors and Actuators B: Chemical, vol. 301(12), 127164, 2019 [Web]
  4. Akiyo Yokomizo, Yuya Morimoto, Keigo Nishimura, and Shoji Takeuchi: Temporal Observation of Adipocyte Microfiber Using Anchoring Device, Micromachines, vol. 10(6), p.358(11pages), 2019 [Web]
  5. Masahide Gotanda, Koki Kamiya, Toshihisa Osaki, Norihisa Miki, and Shoji Takeuchi: Automatic Generation System of Cell-Sized Liposomes, Sensors and Actuators B: Chemical, vol. 292, pp. 57-63, 2019 [Web]
  6. Yusuke Hirata, Yuya Morimoto, Eunryel Nam and Shoji Takeuchi: Portable biohybrid odorant sensors using cell-laden collagen micropillars, Lab on a Chip, vol.19: 1971-1976, 2019 [Web]
  7. Nobuo Misawa, Satoshi Fujii, Koki Kamiya, Toshihisa Osaki, Tomoyuki Takaku, Yasuhiko Takahashi, Shoji Takeuchi: Construction of a Biohybrid Odorant Sensor using Biological Olfactory Receptors Embedded into Bilayer Lipid Membrane on a Chip, ACS Sensors, vol. 4(3), pp 711–716, 2019  [Web]
  8. Florian Larramendy, Shotaro Yoshida, Daniela Maier, Zoltan Fekete, Shoji Takeuchi and Oliver Paul: 3D Arrays of Microcages by Two-photon Lithography for Spatial Organization of Living Cells, Lab on a chip, vol. 19, 875-884, 2019 [Web]
  9. Y. Morimoto, H. Onoe, and S. Takeuchi: Biohybrid device with antagonistic skeletal muscle tissue for measurement of contractile force, Advanced Robotics, vol. 33, pp. 208-218, 2019 [Web]
  10. K. Ikeda and S. Takeuchi: Anchorage-Dependent Cell Expansion in Fiber-Shaped Microcarrier Aggregates, Biotechnology Progress, vol. 35(2), e2755, 2019 [Web]
  11. Nobuhito Mori, Yuya Morimoto, and Shoji Takeuchi: Perfusable and stretchable 3D culture system for skin-equivalent, Biofabrication, vol. 11(1), 011001, 2019 [Web]
  12. Juergen Groll, Jason Burdick, Dong-Woo Cho, Brian Derby, Michael Gelinsky, Sarah Heilshorn, Tomasz Juengst, Jos Malda, Vladimir Mironov, Koichi Nakayama, Aleksandr Ovsianikov, Wei Sun, Shoji Takeuchi, James Yoo, Tim Woodfield: A definition of bioinks and their distinction from biomaterial inks, Biofabrication, vol.11(1), 013001, 2019 [Web] (review paper)
2018
  1. K. Kamiya, T. Osaki, K. Nakao, R. Kawano, S. Fujii, N. Misawa, M. Hayakawa, and S. Takeuchi: Electrophysiological measurement of ion channels on plasma/organelle membranes using an on-chip lipid bilayer system, Scientific Reports, vol. 8, 17498, 2018 [Web]
  2. Roger D. Kamm, Rashid Bashir, Natasha Arora, Roy D. Dar, Martha U. Gillette, Linda G. Griffith, Melissa L. Kemp, Kathy Kinlaw, Michael Levin, Adam C. Martin, Todd C. McDevitt, Robert M. Nerem, Mark J. Powers, Taher A. Saif, James Sharpe, Shuichi Takayama, Shoji Takeuchi, Ron Weiss, Kaiming Ye, Hannah G. Yevick, and Muhammad H. Zaman: The promise of multi-cellular engineered living systems, APL Bioengineering, vol. 2, 040901, 2018 [Web] (review paper)
  3. Minghao Nie and Shoji Takeuchi: Bottom-up biofabrication using microfluidic techniques, Biofabrication, vol. 10(4), 044103, 2018 [Web] (review paper)
  4. Maie A. Elfaramawy, Satoshi Fujii, Atsuko Uyeda, Toshihisa Osaki, Shoji Takeuchi, Yasuhiko Kato, Hajime Watanabe and Tomoaki Matsuura: Quantitative analysis of cell-free synthesized membrane proteins at the stabilized droplet interface bilayer, Chemical Communications, vol. 54(86), pp. 12226-12229, 2018 [Web]
  5. Satoshi Fujii, Koki Kamiya, Toshihisa Osaki, Nobuo Misawa, Masatoshi Hayakawa and Shoji Takeuchi: Purification-Free MicroRNA Detection By Using Magnetically Immobilized Nanopores On Liposome Membrane, Analytical Chemistry, vol.90(17), pp. 10217–10222, 2018 [Web]
  6. Yuya Morimoto, Mahiro Kiyosawa, and Shoji Takeuchi: Three-dimensional Printed Microfluidic Modules for Design Changeable Coaxial Microfluidic Devices, Sensors and Actuators B: Chemical, vol. 274(20), pp. 491-500, 2018 [Web]
  7. Ai Shima, Yuya Morimoto, H. Lee Sweeney, Shoji Takeuchi: Three-dimensional contractile muscle tissue consisting of human skeletal myocyte cell line, Experimental Cell Research, vol. 370(1), pp. 168-173, 2018 [Web]
  8. Shotaro Yoshida, Yuya Morimoto, Lanying Zheng, Hiroaki Onoe, and Shoji Takeuchi: Multipoint bending and shape retention of a pneumatic bending actuator by a variable stiffness endoskeleton, Soft Robotics, vol. 5(6), pp. 718-725, 2018 [Web]
  9. Yuya Morimoto, Hiroaki Onoe, and Shoji Takeuchi: Biohybrid robot powered by an antagonistic pair of skeletal muscle tissues, Science Robotics, vol. 3, eaat4440, 2018 [Web<-Free access from this link!], selected as the top cover of the issue, highlighed in Science
  10. K. Nishimura, Y. Morimoto, N. Mori, S. Takeuchi, Formation of Branched and Chained Alginate Microfibers Using Theta-Glass Capillaries, Micromachines, vol. 9, 303, 2018 [Web]
  11. Shotaro Yoshida, Midori Kato-Negishi, Shoji Takeuchi: Assembly and connection of micropatterned single neurons for neuronal network formation, Micromachines, vol. 9(5), 235, 2018 [Web] cover of the issue
  12. Lorenzo Moroni, Jason Burdick, Christopher Highley, Sang Jin Lee, Yuya Morimoto, Shoji Takeuchi, and James Yoo: Biofabrication strategies for 3D in vitro models and regenerative medicine, Nature Reviews Materials, vol. 3, pp. 21-87, 2018 [Web] (review paper)
  13. Nobuo Misawa, Toshihisa Osaki, and Shoji Takeuchi: Membrane Protein-Based Biosensors, Journal of the Royal Society Interface, vol. 15, 20170952, 2018 [Web] (review paper)
  14. Hiroki Yasuga, Koki Kamiya, Shoji Takeuchi, and Norihisa Miki: Self-generation of two-dimensional droplet array using oil/water immiscibility and replacement, Lab on a chip, vol. 18, pp. 1130-1137, 2018 [Web]
  15. Masahide Gotanda, Koki Kamiya, Toshihisa Osaki, Satoshi Fujii, Nobuo Misawa, Norihisa Miki, and Shoji Takeuchi: Sequential generation of asymmetric lipid vesicles using a pulsed-jetting method in rotational wells, Sensors and Actuators B, vol. 261(15), pp. 392-397, 2018 [Web]
  16. Koki Kamiya, Yuta Abe, Kosuke Inoue, Toshihisa Osaki, Ryuji Kawano, Norihisa Miki, and Shoji Takeuchi: Well-controlled cell-trapping systems for investigating heterogeneous cell-cell interactions, Advanced Healthcare Materials, vol. 7, 1701208, 2018 [Web] selected as the inside front cover of the issue. hilighted at AdvancedScienceNews.com
  17. Y. Izawa, T. Osaki, K. Kamiya, S. Fujii, N. Misawa, S. Takeuchi, N. Miki: Suppression of sloshing by utilizing surface energy and geometry in microliter cylindrical well, Sensors and Actuators B, vol. 258, pp. 1036-1041, 2018 [Web]
  18. M. Gertrude Gutierrez, Shotaro Yoshida, Noah Malmstadt, Shoji Takeuchi: Rehydration on a photolithographic patterned surface forms size-controlled lipid vesicles, APL Bioengineering, vol. 2, 016104, 2018 [Web]
2017
  1. Lorenzo Moroni, Thomas Boland, Jason A. Burdick, Carmelo De Maria, Brian Derby, Gabor Forgacs, Jurgen Groll, Qing Li, Jos Malda, Vladimir A. Mironov, Carlos Mota, Makoto Nakamura, Wenmiao Shu, Shoji Takeuchi, Tim B.F. Woodfield, Tao Xu, James J. Yoo, Giovanni Vozzi: Biofabrication: A Guide to Technology and Terminology, Trends in Biotechnology, vol. 36(4), pp. 384-402, 2018 [Web] (review paper)
  2. Serien Daniela and Shoji Takeuchi: Two-Photon Direct Laser Writing for Proteinaceous Microstructures with Additional Sensitizer, Journal of Laser Micro/Nanoengineering, vol.12(2), pp. 80-85 2017 [Web]
  3. Koki Kamiya and Shoji Takeuchi: Giant liposome formation toward synthesis of well-defined artificial cells, Journal of Materials Chemistry B, vol. 5, pp. 5911-5923, 2017 [Web] (review paper)
  4. Hiroki Yasuga, Kosuke Inoue, Ryuji Kawano, Masahiro Takinoue, Toshihisa Osaki, Koki Kamiya, Norihisa Miki, and Shoji Takeuchi: Serial DNA Relay in DNA Logic Gates by electrical Fusion and Mechanical Splitting of Droplets, PLOS ONE, 12(7): e0180876, 2017 [Web]
  5. Satoshi Fujii, Aiko Nobukawa, Toshihisa Osaki, Yuya Morimoto, Koki Kamiya, Nobuo Misawaa and Shoji Takeuchi: Pesticide vapor sensing using an aptamer, nanopore, and agarose gel on a chip, Lab on a chip, vol. 17, pp. 2421-2425, 2017 [Web]
  6. Kazuhiro Ikeda, Shogo Nagata, Teru Okitsu, and Shoji Takeuchi: Cell fiber-based three-dimensional culture system for highly efficient expansion of human induced pluripotent stem cells, Scientific Reports vol. 7, 2850, 2017 [Web]
  7. Naoko Ueno, Taisuke Banno, Arisa Asami, Yuki Kazayama, Yuya Morimoto, Toshihisa Osaki, Shoji Takeuchi, Hiroyuki Kitahata, and Taro Toyota: Self-propelled motion of monodisperse underwater oil droplets formed by a microfluidic device, Langmuir, vol. 33(22), pp. 5393-5397, 2017 [Web]
  8. Yuya Morimoto, Maiko Onuki, and Shoji Takeuchi: Mass production of cell-laden calcium alginate particles with centrifugal force, Advanced Healthcare Materials, vol. 6, 1601375, 2017 [Web]
  9. Midori Kato-Negishi, Hiroaki Onoe, and Shoji Takeuchi: Rod-shaped Neural Units for Aligned 3D Neural Network Connection, Advanced Healthcare Materials, vol. 6, 1700143, 2017 [Web]
  10. Ryuji Kawano, Nao Horike, Yuh Hijikata, Mio Kondo, Arnau Carne-Sanchez, Patrick Larpent, Shuya Ikemura, Toshihisa Osaki, Koki Kamiya, Susumu Kitagawa, Shoji Takeuchi, Shuhei Furukawa: Metal-Organic Cuboctahedra for Synthetic Ion Channels with Multiple Conductance States, Chem, vol. 2(3), pp. 393-403, 2017 [Web]
  11. Maurizio Gullo, Shoji Takeuchi, Oliver Paul: Multicellular Biohybrid Materials: Probing the Interplay of Cells of Different Types Precisely Positioned and Constrained on Three-Dimensional Wireframe-Like Microstructures, Advanced Healthcare Materials, vol.6, p. 1601053, 2017 [Web]
  12. Shoji Takeuchi: Versatile gel assembly on a chip, Nature, vol. 541, pp. 470-471, 2017 [Web] (news and views)
  13. Minghao Nie and Shoji Takeuchi: Microfluidics based synthesis of coiled hydrogel microfibers with flexible shape and dimension control, Sensors & Actuators: B. Chemical, vol. 246, pp. 358–362, 2017 [Web]
  14. Won Chul Lee, Byung Hyo Kim, Sun Choi, Shoji Takeuchi, Jungwon Park: Liquid-Cell Electron Microscopy of Nanoparticle Self-Assembly Driven by Solvent Drying, The Journal of Physical Chemistry Letters, vol. 8(3), pp. 647–654, 2017 [Web]
  15. Daniela Serien and Shoji Takeuchi: Multi-Component Microscaffold With 3D Spatially Defined Proteinaceous Environment, ACS Biomaterials Science & Engineering, vol. 3(3), pp. 487–494, 2017 [Web]
  16. Fumihito Ozawa, Teru Okitsu, and Shoji Takeuchi: Improvement in Mechanical Properties of Cell-Laden Hydrogel Microfibers Using Interpenetrating Polymer Network, ACS Biomaterials Science & Engineering, vol. 3 (3), pp. 392–398, 2017 [Web]
  17. Yusheng Shen, Dongshi GUAN, Daniela Serien, Shoji Takeuchi, Penger Tong, Levent Yobas, and Pingbo HUANG: Mechanical Characterization of Microengineered Epithelial Cysts by Using Atomic Force Microscopy, Biophysical Journal, vol. 112(2), p. 398–409, 2017 [Web]
  18. Toshihisa Osaki and Shoji Takeuchi: Artificial Cell Membrane Systems for Biosensing Applications, Analytical Chemistry, vol. 89(1), pp. 216–231, 2017 (review paper) [Web]
  19. Nobuhito Mori, Yuya Morimoto, and Shoji Takeuchi: Skin integrated with perfusable vascular channels on a chip, Biomaterials, vol. 116, pp. 48–56, 2017 [Web]
  20. Yuriko Oyama, Toshihisa Osaki, Koki Kamiya, Masatoshi Sawai, Masatoshi Sakai, and Shoji Takeuchi: A sensitive point-of-care testing chip utilizing superabsorbent polymer for the early diagnosis of infectious disease, Sensors & Actuators: B. Chemical, vol. 240, pp. 881–886, 2017 [Web]
2016
  1. Florian Larramendy, Shotaro Yoshida, Laurent Jalabert, Shoji Takeuchi, and Oliver Paul: Surface Modification for Patterned Cell Growth on Substrates with Pronounced Topographies using Sacrificial Photoresist and Parylene-C Peel-off, Journal of Micromechanics and Microengineering, vol. 26, p. 095017, 2016 [Web]
  2. Koki Kamiya, Ryuji Kawano, Toshihisa Osaki, Kazunari Akiyoshi, and Shoji Takeuchi:Cell-sized asymmetric lipid vesicles facilitate the investigation of asymmetric membranes, Nature Chemistry, vol. 8, pp. 881–889, 2016 [Web]
  3. Nobuhito Mori, Yuya Morimoto, and Shoji Takeuchi: Vessel-like channels supported by poly-l-lysine tubes, Journal of Bioscience and Bioengineering, vol. 122(6), pp. 753–757, 2016 [Web]
  4. Fumiaki Tomoike, Taishi Tonooka Toshihisa Osaki, and Shoji Takeuchi: Repetitive formation of optically observable planar lipid bilayers by rotating chambers on a microaperture, Lab on a Chip, vol.16, pp. 2423-2426, 2016 [Web]
  5. Yusuke Katsuki, Hiroshi Yagi, Teru Okitsu, Minoru Kitago, Kazuki Tajima, Yoshie Kadota, Taizo Hibi, Yuta Abe, Masahiro Shinoda, Osamu Itano, Shoji Takeuchi, Yuko Kitagawa: Endocrine pancreas engineered using porcine islets and partial pancreatic scaffolds, Pancreatology, vol. 16(5), pp. 922-930, 2016 [Web]
  6. T. Tokuda, T. Kawamura, K. Masuda, T. Hirai, Hironari Takehara, Y. Ohta, M. Motoyaa, Hiroaki Takehara, T. Noda, K. Sasagawa, T. Okitsu, S. Takeuchi, and J. Ohta: In-vitro long-term performance evaluation and improvement in the response time of CMOS-based implantable glucose sensors, IEEE Design & Test, vol.33, pp. 37-48, 2016 [Web]
  7. Yuya Morimoto, Saori Mori, Fusako Sakai, and Shoji Takeuchi: Human induced pluripotent stem cell-derived fiber-shaped cardiac tissue on a chip, Lab on a Chip, vol. 16, pp. 2295-2301, 2016 [Web]
  8. Tetsuhiko Teshima, Hiroaki Onoe, Soichiro Tottori, Hiroka Aonuma, Takeomi Mizutani, Koki Kamiya, Hirotaka Ishihara, Hirotaka Kanuka, and Shoji Takeuchi: High-Resolution Vertical Observation of Intracellular Structure using Magnetically Responsive Microplates, Small, vol. 12(25), pp. 3366–3373, 2016 [Web]
  9. Eunryel Nam, Wonchul Lee, and Shoji Takeuchi: Formation of highly aligned collagen nanofibers by continuous cyclic stretch of a collagen hydrogel sheet, Macromolecular Bioscience, vol. 16(7), pp. 995–1000, 2016 [Web]
  10. Hiroaki Onoe, Midori Kato-Negishi, Akane Itou and Shoji Takeuchi: Differentiation Induction of Mouse Neural Stem Cells in Hydrogel Tubular Microenvironments with Controlled Tube Dimensions, Advanced Healthcare Materials, vol. 5(9), pp. 1104–1111, 2016 [Web]
  11. Yuya Morimoto, Yumi Mukouyama, Shohei Habasaki, Shoji Takeuchi: Balloon pump with floating valves for continuous liquid delivery, Micromachines, vol. 7(3), 39, 2016 [Web]
  12. Hiroki Yasuga, Ryuji Kawano, Masahiro Takinoue, Yutaro Tsuji, Toshihisa Osaki, Koki Kamiya, Norihisa Miki, and Shoji Takeuchi: Logic Gate Operation by DNA Translocation through Biological Nanopores, PLOS ONE, 11(2): e0149667, 2016 [Web]
  13. Yukihiro Oritani, Teru Okitsu, Eisaku Nishimura, Masahiko Sai, Tatsuhiko Ito, Shoji Takeuchi: Enhanced glucose tolerance by intravascularly administered piceatannol in freely moving healthy rats, Biochemical and Biophysical Research Communications, vol. 470(3), pp. 753–758, 2016 [Web]
  14. Shotaro Yoshida, Tetsuhiko Teshima, Kaori Kuribayashi-Shigetomi, and Shoji Takeuchi: Mobile microplates for morphological control and assembly of individual neural cells, Advanced Healthcare Materials, vol. 5(4), pp. 415–420, 2016 [Web], selected as the back cover of the issue
  15. Yuki Kazayama, Tetsuhiko Teshima, Toshihisa Osaki, Shoji Takeuchi and Taro Toyota: Integrated Microfluidic System for Size-Based Selection and Trapping of Giant Vesicles, Analytical Chemistry, vol. 88(2), pp. 1111–1116, 2016 [Web]
  16. Juergen Groll, Thomas Boland, Torsten Blunk, Jason Burdick, Dong-Woo Cho, Paul Dalton, Brian Derby, Gabor Forgacs, Qing Li, Vladimir Mironov, Lorenzo Moroni, Makoto Nakamura, Wenmiao Shu, Shoji Takeuchi, Giovanni Vozzi, Tim Woodfield, Tao Xu, James Yoo, Jos Malda: Biofabrication: Reappraising the definition in an evolving field, Biofabrication, vol. 8(1), 013001, 2016 (review paper) [Web]
  17. Amy Y. Hsiao, Teru Okitsu, Hiroki Teramae, and Shoji Takeuchi: 3D Tissue Formation of Unilocular Adipocytes in Hydrogel Microfibers, Advanced Healthcare Materials, vol. 5(5), pp. 548–556, 2016 [Web]
2015
  1. Shigenori Miura, Koji Sato, Midori Kato-Negishi, Tetsuhiko Teshima and Shoji Takeuchi: Fluid shear triggers microvilli formation via mechanosensitive activation of TRPV6, Nature Communications, vol. 6, 8871, 2015 [Web]
  2. Shohei Habasaki, Won Chul Lee, Shotaro Yoshida and Shoji Takeuchi, Vertical Flow Lithography for Fabrication of 3D Anisotropic Particles, Small, vol. 11(48), pp. 6391–6396, 2015 [Web]
  3. Kazuki Maeda, Hiroaki Onoe, Masahiro Takinoue, Shoji Takeuchi: Observation and Manipulation of a Capillary Jet in a Centrifuge-based Droplet Shooting Device, Micromachines, vol. 6(10), 1526-1533, 2015 [Web]
  4. Yuya Morimoto, Amy Y. Hsiao, and Shoji Takeuchi: Point, Line and Plane-shaped Cellular Constructs for 3D Tissue Assembly, Advanced Drug Delivery Reviews, vol. 95, pp. 29-39, 2015 (review paper) [Web]
  5. Daniela Serien and Shoji Takeuchi: Fabrication of Submicron Proteinaceous Structures by Direct Laser Writing, Applied Physics Letters, vol. 107, pp. 013702, 2015 [Web]
  6. Tomohiro Ishii, Koji Sato, Toshiyuki Kakumoto, Shigenori Miura, Kazushige Touhara, Shoji Takeuchi, Takao Nakata: Light generation of intracellular Ca2+ signals by a genetically encoded protein BACCS, Nature Communications, vol. 6, 8021, 2015 [Web]
  7. Keiko Sugai, Soraya Nishimura, Midori Kato-Negishi, Hiroaki Onoe, Shintaroh Iwanaga, Yoshiaki Toyama, Morio Matsumoto, Shoji Takeuchi, Hideyuki Okano, and Masaya Nakamura: Neural Stem/Progenitor Cell-Laden Microfibers Promote Transplant Survival in a Mouse Transected Spinal Cord Injury Model, Journal of Neuroscience Research, vol. 93(12), pp. 1826–1838, 2015 [Web]
  8. Yuki Yamada, Satoshi Hiyama, Tsuguyoshi Toyooka, Shoji Takeuchi, Keiji Itabashi, Tatsuya Okubo, Hitoshi Tabata: Ultratrace Measurement of Acetone from Skin Using Zeolite: Toward Development of a Wearable Monitor of Fat Metabolism, Analytical Chemistry, vol. 87(15), pp. 7588–7594, 2015 [Web]
  9. Yuta Abe, Koki Kamiya, Toshihisa Osaki, Hirotaka Sasaki, Ryuji Kawano, Norihisa Miki and Shoji Takeuchi: Nonlinear concentration gradients regulated by the width of channels for observation of half maximal inhibitory concentration (IC50) of transporter proteins, Analyst, vol. 140, pp. 5557-5562, 2015 [Web]
  10. T. Kawamura, K. Masuda, T. Hirai, Y. Ohta, M. Motoyama, H. Takehara, T. Noda, K. Sasagawa, T. Tokuda, T. Okitsu, S. Takeuchi and J. Ohta: CMOS-based implantable glucose monitoring device with improved performance and reduced invasiveness, Electronics Letters, vol. 51(10), pp. 738-740, 2015 [Web]
  11. Won Chul Lee, Kwanpyo Kim, Jungwon Park, Jahyun Koo, Hu Young Jeong, Hoonkyung Lee, David Weitz, Alex Zettl, and Shoji Takeuchi: Graphene-templated directional growth of an inorganic nanowire, Nature Nanotechnology, vol. 10, pp. 423–428, 2015 [Web]
  12. Soichiro Tottori and Shoji Takeuchi: Formation of liquid rope coils in a coaxial microfluidic device, RSC Advances, vol. 5, pp. 33691-33695, 2015 [Web]
  13. Sachine Yoshida, Yuya Morimoto, Taishi Tonooka, Shoji Takeuchi: An inhalation anesthetic device for stereotaxic operation on mouse pups, Journal of Neuroscience Methods, 243:63-7, 2015 [Web]
  14. Yoshinobu Iimura, Hiroaki Onoe, Tetsuhiko Teshima, Yun Jung Heo; Shotaro Yoshida, Yuya Morimoto, and Shoji Takeuchi: Liquid-filled tunable lenticular lens, Journal of Micromechanics and Microengineering, vol. 25, 035030 (6pp), 2015 [Web]
  15. Midori Teshima, Takahiro Seki, Ryuji Kawano, Shoji Takeuchi, Shinya Yoshioka and Yukikazu Takeoka: Preparation of structurally colored, monodisperse spherical assemblies composed of black and white colloidal particles using a micro-flow-focusing device, Journal of Materials Chemistry C, vol. 3, pp. 769-777, 2015 [Web]
  16. Amy Y. Hsiao, Teru Okitsu, Hiroaki Onoe, Mahiro Kiyosawa, Hiroki Teramae, Shintaroh Iwanaga, Tomohiko Kazama, Taro Matsumoto, Shoji Takeuchi: Smooth Muscle-like Tissue Constructs with Circumferentially Oriented Cells Formed by the Cell Fiber Technology, Plos ONE, 10(3):e0119010, 2015 [Web]
  17. Hiroaki Onoe and Shoji Takeuchi: Cell-laden microfibers for bottom-up tissue engineering, Drug Discovery Today, vol. 20(2), pp. 236–246, 2015 (review paper) [Web]
2014
  1. Hiroaki Onoe*, Kiichi Inamori*, Masahiro Takinoue, and Shoji Takeuchi: Centrifuge-based cell encapsulation in hydrogel microbeads using sub-microliter sample solution, RSC Advances, vol. 4, pp. 30480-30484, 2014 (*: equal contribution) [Web]
  2. Takashi Tokuda, Masayuki Takahashi, Kazuhiro Uejima, Keita Masuda, Toshikazu Kawamura, Yasumi Ohta, Mayumi Motoyama, Toshihiko Noda, Kiyotaka Sasagawa, Teru Okitsu, Shoji Takeuchi, and Jun Ohta: CMOS image sensor-based implantable glucose sensor using glucose-responsive fluorescent hydrogel, Biomedical Optics Express, vol. 5(11), pp. 3859-3870, 2014 [Web]
  3. K. Sato and S. Takeuchi: Chemical Vapor Detection using a Reconstituted Insect Olfactory Receptor Complex, Angewandte Chemie Internatilanl Edition, vol. 53(44), pp. 11798-11802, 2014 [Web], selected as the inside back cover of the issue, highlighted in Asian Scientist
  4. Ryuji Kawano, Yutaro Tsuji, Koki Kamiya, Taiga Kodama, Toshihisa Osaki, Norihisa Miki, Shoji Takeuchi: A Portable Lipid Bilayer System for Environmental Sensing with a Transmembrane Protein, PLOS ONE, vol. 9(7): e102427 [Web]
  5. Shingo Miura, Taisuke Banno, Taishi Tonooka, Toshihisa Osaki, Shoji Takeuchi, Taro Toyota: pH-Induced Motion Control of Self-Propelled Oil Droplets Using a Hydrolysable Gemini Cationic Surfactant, Langmuir, vol. 30(27), pp. 7977-85, 2014 [Web]
  6. Taishi Tonooka, Koji Sato, Toshihisa Osaki, Ryuji Kawano, and Shoji Takeuchi: Lipid bilayers on a picoliter microdroplet array for rapid fluorescence detection of membrane transport, Small, vol. 10(16), pp. 3197–3420, 2014 [Web], selected front cover of the issue
  7. Nobuhiko Kojima, Shoji Takeuchi, Yasuyuki Sakai: Fabrication of microchannel networks in multicellular spheroids, Sensors & Actuators: B. Chemical, vol.198, pp. 249–254, 2014 [Web]
  8. Tetsuhiko Teshima, Hiroaki Onoe, Hiroka Aonuma, Kaori Kuribayashi-Shigetomi, Koki Kamiya, Taishi Tonooka, Hirotaka Kanuka, and Shoji Takeuch: Magnetically Responsive Microflaps Reveal Cell Membrane Boundaries from Multiple Angles, Advanced Materials, vol. 26(18), pp. 2850–2856, 2014 [Web], selected as the inside back cover of the issue
  9. N. Kojima, S. Takeuchi, and Y. Sakai: Engineering of Pseudoislets: Effect on Insulin Secretion Activity by Cell Number, Cell Population, and Microchannel Networks, Transplantation Proceedings, vol. 46, pp. 1161-1165, 2014 [Web]
  10. Hiromasa Hasegawa, Tetsuhiko Teshima, Hiroaki Onoe and Shoji Takeuchi: Centrifugal microfluidic system for multistep assay using small amount of various samples, Sensors and Actuators B: Chemical,vo.l. 195, pp. 281-286, 2014 [Web]
  11. Tetsuhiko Teshima, Hiroaki Onoe, Kaori Kuribayashi-Shigetomi, Hiroka Aonuma, Koki Kamiya, Hirotaka Ishihara, Hirotaka Kanuka, and Shoji Takeuchi: Parylene mobile microplates integrated with an enzymatic release and handling of single adherent cells, Small, vol. 10(5): 912-921, 2014 [Web], selected as the front cover of the issue
  12. Shotaro Yoshida, Koji Sato, and Shoji Takeuchi: Three-Dimensional Microassembly of Cell-Laden Microplates by in situ Gluing with Photocurable Hydrogels, International Journal of Automation Technology, vol. 8(1), pp. 95-101, 2014 [Web]
2013
  1. Yutaro Tsuji, Ryuji Kawano, Toshihisa Osaki, Koki Kamiya, Norihisa Miki, and Shoji Takeuchi: Droplet Split-and-Contact Method for High-Throughput Transmembrane Electrical Recording, Analytical Chemistry, vol. 85(22), pp. 10913–10919, 2013 [Web]
  2. Yuya Morimoto, Midori Negishi-Kato, Hiroaki Onoe, and Shoji Takeuchi: Three-Dimensional Neuron-Muscle Constructs with Neuromuscular Junctions, Biomaterials, vol.34(37), pp. 9413–9419, 2013 [Web]
  3. Soo Hyeon Kim, Satoko Yoshizawa, Shoji Takeuchi, Teruo Fujii, and Dominique Fourmy: Ultra-high density protein spots achieved by on chip digitalized protein synthesis: Analyst, vol. 138, pp. 4663-4669, 2013 [Web]
  4. Ryuji Kawano, Yutaro Tsuji, Koji Sato, Toshihisa Osaki, Koki Kamiya, Minako Hirano, Toru Ide, Norihisa Miki, and Shoji Takeuchi: Automated Parallel Recordings of Topologically Identified Single Ion Channels, Scientific Reports, vol. 3, 1995, 2013 [Web]
  5. Midori Kato-Negishi, Yuya Morimoto, Hiroaki Onoe, and Shoji Takeuchi: Millimeter-sized neural building blocks for 3D heterogeneous neural network assembly, Advanced Healthcare Materials, vol. 2(12), pp. 1564–1570, 2013 [Web], selected as the front cover of the issue, highlighted on Materials views.
  6. Hiroaki Onoe, Teru Okitsu, Akane Itou, Midori Kato-Negishi, Riho Gojo, Daisuke Kiriya, Koji Sato, Shigenori Mirua, Shintaroh Iwanaga, Kaori Kuribayashi-Shigetomi, Yukiko Matsunaga, Yuto Shimoyama, and Shoji Takeuchi: Metre-long Cell-laden Microfibres Exhibit Tissue Morphologies and Functions, Nature Materials, vol.12, pp. 584–590, 2013 [Web], highlighted in LOC
  7. Taiga Kodama, Toshihisa Osaki, Ryuji Kawano, Koki Kamiya, Norihisa Miki, and Shoji Takeuchi: Round-Tip Dielectrophoresis-Based Tweezers for Single Micro-Object Manipulation, Biosensors and Bioelectronics, vol.47, pp. 206-212, 2013 [Web]
  8. Yutaro Tsuji, Ryuji Kawano, Toshihisa Osaki, Koki Kamiya, Norihisa Miki, and Shoji Takeuchi: Droplet based lipid bilayer system integrated with microfluidic channels for solution exchange, Lab on a Chip, vol.13, 1476-1481. 2013, selected as the inside cover of the issue [Web]
  9. Dominique Collard, Soo Hyeon Kim, Toshihisa Osaki, Momoko Kumemura, Beomjoon Kim, Dominique Fourmy, Teruo Fujii, Shoji Takeuchi, Stanislav L. Karsten, Hiroyuki Fujita: Nano bio research approach by micro technology, Drug Discover Today, vol.18, 552-559, 2013 (review paper), [Web]
  10. Kayoko Hirayama, Teru Okitsu, Hiroki Teramae, Daisuke Kiriya, Hiroaki Onoe and Shoji Takeuchi: Cellular building unit integrated with microstrand-shaped bacterial cellulose, Biomaterials, vol. 34, pp. 2421-2427, 2013 [Web]
  11. Yuya Morimoto and Shoji Takeuchi: Three-Dimensional Cell Culture Based on Microfluidic Techniques to Mimic Living Tissues, Biomaterials Science, vol.1, 257-264, 2013 [Web] (review paper)
  12. Yuya Morimoto, Risa Tanaka, and Shoji Takeuchi: Construction of Three-dimensional Layered Skin Microsized Tissues by using Cell Beads for Cellular Function Analysis, Advanced Healthcare Materials, vol.2, 261-265, 2013 [Web]
  13. Yun Jung Heo and Shoji Takeuchi: Towards smart tattoos: implantable biosensors for continuous glucose monitoring, Advanced Healthcare Materials, vol. 2(1), pp. 43-56, 2013 (review paper), selected inside cover of the issue [Web]
  14. Taishi Tonooka, Tetsuhiko Teshima, and Shoji Takeuchi: Clustering triple microbeads in a dynamic microarray for timing-controllable bead-based reactions, Microfluidics and Nanofluidics vol. 14(6), pp. 1039-1048, 2013. [Web]
2012
  1. Kaori Kuribayashi-Shigetomi, Hiroaki Onoe, and Shoji Takeuchi: Cell Origami: Self-folding of Three-Dimensional Cell-Laden Microstructures Driven by Cell Traction Force, PLoS ONE, vol. 7(12), p. e51085, 2012 [Web]
  2. Yuriko Oyama, Toshihisa Osaki, Koki Kamiya, Ryuji Kawano, Tsutomu Honjoh, Haruki Shibata, Toru Ide and Shoji Takeuchi: A Glass fiber sheet-based electroosmotic lateral flow immunoassay for point-of-care testing, Lab on a Chip, vol. 12(24), pp. 5155–5159, 2012 [Web], selected as the inside cover of the issue.
  3. Yun Jung Heo, Masayuki Takahashi, Hideaki Shibata, Teru Okitsu, Tetsuro Kawanishi, and Shoji Takeuchi: Nanoreplica moulding of polyacrylamide hydrogels, Micro Nano Letters, vol. 7(11), pp. 1108-1111, 2012 [Web]
  4. Won Chul. Lee, Yun Jung.Heo and Shoji Takeuchi: Wall-less Liquid Pathways Formed with 3-Dimensional Microring Arrays, Applied Physics Letters, vol. 101, p. 114108, 2012. [Web]
  5. Momoko Kumemura, Dominique Collard, Satoko Yoshizawa, Bernard Wee, Shoji Takeuchi, and Hiroyuki Fujita: Enzymatic Reaction in Droplets Manipulated with Liquid Dielectrophoresis, ChemPhysChem, vol.13, pp. 3308-3312, 2012 [Web]
  6. Antonin Hoel, Toshihisa Osaki, Shoji Takeuchi, Sebastian Volz, Hideki Kawakatsu: Molecular Resolution of a DOPC Lipid Bilayer in Liquid by Phase Modulation Atomic Force Microscopy, Applied Physics Letters, vol. 101, 063117, 2012 [Web]
  7. Sadao Ota, Hiroaki Kitagawa, and Shoji Takeuchi: Generation of femtoliter reactor arrays within a microfluidic channel for biochemical analysis, Analytical Chemistry, vol. 84(15), pp 6346–6350, 2012 [WEB]
  8. Daisuke Kiriya, Ryuji Kawano, Hiroaki Onoe, and Shoji Takeuchi: Microfluidic Control of the Internal Morphology in Nanofiber-based Macroscopic Cables, Angewandte Chemie International Edition, vol. 51(32), pp. 7942-7947, 2012, [WEB], selected as the inside inside back cover of the issue,
  9. Nobuhiko Kojima, Shoji Takeuchi, Yasuyuki Sakai: Rapid aggregation of heterogeneous cells and multiple-sized microspheres in methylcellulose medium, Biomaterials, vol. 33(18), pp. 4508-4518, 2012 [WEB]
  10. Hitoshi Matsui, Shoji Takeuchi, Tomoharu Osada, Teruo Fujii, Yasuyuki Sakai: Enhanced bile canaliculi formation enabling direct recovery of biliary metabolites of hepatocytes in 3D collagen gel microcavities, Lab on a Chip, vol. 12, pp. 1857-1864, 2012 [WEB]
  11. Kazuki Maeda, Hiroaki Onoe, Masahiro Takinoue, and Shoji Takeuchi: Controlled synthesis of 3D multi-compartmental particles with centrifuge-based microdroplet formation from a multi-barrelled capillary, Advanced Materials, vol. 24(10), pp. 1340-1346, 2012 [WEB], selected as the inside cover of the issue, highlighted in Nature
  12. Hirotaka Sasaki, Ryuji Kawano, Toshihisa Osaki, Koki Kamiya, and Shoji Takeuchi: Single-vesicle analysis of ATP-binding cassette transporters in microfluidic channels, Lab on a Chip, vol. 12, pp. 702-704, 2012 [WEB], selected as the back cover of the issue
  13. Daisuke Kiriya, Masato Ikeda, Hiroaki Onoe, Masahiro Takinoue, Harunobu Komatsu, Yuto Shimoyama, Itaru Hamachi, and Shoji Takeuchi: Meter-Long and Robust Supramolecular Strands Encapsulated in Hydrogel Jackets, Angewandte Chemie International Edition, vol. 51(7), pp. 1553-1557, 2012 [WEB], selected as the cover of the issue, highlighted in RSC’s Chemistry World
2011
  1. Kosuke Iwai, Wei-Heong Tan, Hirotaka Ishihara, and Shoji Takeuchi: A Resettable Dynamic Microarray Device, Biomedical Microdevices, vol. 13(6), pp. 1089-1094, 2011 [WEB]
  2. Yun Jung Heo, Hideaki Shibata, Teru Okitsu, Tetsuro Kawanishi, and Shoji Takeuchi: Long-term in vivo glucose monitoring using fluorescent hydrogel fibers, Proc. Natl. Acad. Sci. USA, vol. 108(33), pp. 13399-13403, 2011 [WEB], selected in “This week in PNAS”
  3. Tomoaki Kurakazu, Kaori Kuribayashi-Shigetomi, Yukiko T. Matsunaga, Hiroshi Kimura, Teruo Fujii, Yasuyuki Sakai and Shoji Takeuchi: Selective Retrieval of Microparticles in Microchambers using Electrolytically Generated Bubbles for Cell Array Applications, Sensors and Actuators B, vol. 159(1), pp. 229-233, 2011 [WEB]
  4. Sadao Ota, Hiroaki Suzuki, and Shoji Takeuchi: Microfluidic Lipid Membrane Formation on Microchamber Arrays, Lab on a Chip, vol. 11, pp. 2485-2487, 2011 [WEB]
  5. Toshihisa Osaki, Yoshihiko Watanabe, Ryuji Kawano, Hirotaka Sasaki, and Shoji Takeuchi: Electrical Access to Lipid Bilayer Membrane Microchambers for Transmembrane Analysis, Journal of Microelectromechanical Systems, vol. 20(4), pp. 797-799, 2011 [WEB]
  6. Ryuji Kawano, Toshihisa Osaki, Hirotaka Sasaki, Masahiro Takinoue, Satoko Yoshizawa and Shoji Takeuchi: Rapid Detection of a Cocaine-Binding Aptamer Using Biological Nanopores on a Chip, Journal of the American Chemical Society, vol. 133(22), pp 8474-8477, 2011 [WEB]
  7. Nobuhiko Kojima, Shoji Takeuchi and Yasuyuki Sakai: Establishment of self-organization system in rapidly formed multicellular heterospheroids, Biomaterials, vol. 32(26), pp. 6059-6067, 2011 [WEB]
  8. Fanny Evenou, Morgan Hamon, Teruo Fujii, Shoji Takeuchi, Yasuyuki Sakai: Gas-permeable Membranes and Co-culture with Fibroblasts Enable High-density Hepatocyte Culture as Multilayered Liver Tissues, Biotechnology Progress, vol. 27(4), pp. 1146-1153, 2011 [WEB]
  9. Masahiro Takinoue and Shoji Takeuchi: Droplet microfluidics for the study of artificial cells, Analytical and Bioanalytical Chemistry, vol. 400, pp. 1705-1716, 2011 [WEB]
  10. Yuya Morimoto, Kaori Kuribayashi, Shoji Takeuchi: Hybrid axisymmetric flow-focusing device for monodisperse picoliter droplets, Journal of Micromechanics and Microengineering, vol. 21, 054031(6pp), 2011 [WEB]
  11. Toshihisa Osaki, Satoko Yoshizawa, Ryuji Kawano, Hirotaka Sasaki, and Shoji Takeuchi: Lipid-coated Microdroplet Array for in vitro Protein Synthesis, Analytical Chemistry, vol. 83, pp. 3186-3191, 2011 [WEB]
  12. Yukiko T Matsunaga*, Yuya Morimoto*, Shoji Takeuchi: Molding cell beads for rapid construction of macroscopic 3D tissue architecture, Advanced Materials, vol. 23, pp. H90-94, 2011, (*: equal contribution) [WEB], cover of the Advanced Healthcare Materials
  13. Naoko Yamamoto, Kikuo Komori, Kevin Montagne, Hitoshi Matsui, Hidenari Nakayama, Shoji Takeuchi, Yasuyuki Sakai: Cytotoxicity Evaluation of Reactive Metabolites Using Rat Liver Homogenate Microsome-Encapsulated Alginate Gel Microbeads, Journal of Bioscience and Bioengineering, , vol. 111, no. 4, pp. 454-458, 2011 [WEB]
  14. Ye-Jin Eun, Andrew Utada, Matthew F. Copeland, Shoji Takeuchi, Douglas B. Weibel: Encapsulating bacteria in agarose microparticles using microfluidics for highthroughput cell analysis and isolation, ACS Chemical Biology, vol. 6, pp. 260-266, 2011, [WEB]
  15. Nobuo Misawa, Shoji Takeuchi: A Portable Imaging System for On-site Analysis using CMOS Imager – Microfluidic Analysis and Fluorescence Imaging, IEEJ Transactions on Electrical and Electronic Engineering, vol. 6(2), pp. 97-100, 2011 [WEB]
2010
  1. Hideaki Shibata*, Yun Jung Heo*, Teru Okitsu, Yukiko Matsunaga, Tetsuro Kawanishi, Shoji Takeuchi: Injectable hydrogel microbeads for fluorescence-based continuous glucose monitoring,Parylene-coating in PDMS microfluidic channels prevents the absorption of fluorescent dyes, Proc. Natl. Acad. Sci. USA,vol. 107, no. 42, pp. 17894-17898, 2010 (*: equal contribution), [WEB]
  2. Hitoshi Matsui, Tomoharu Osada, Yasuyuki Morishita, Masaru Sekijima, Teruo Fujii, Shoji Takeuchi, Yasuyuki Sakai: Rapid and Enhanced Repolarization in Sandwich-cultured Hepatocytes on an Oxygen-permeable Membrane, Biochemical Engineering Journal , vol. 52, pp. 255-262, 2010 [WEB]
  3. Midori Kato-Negishi, Yukiko Tsuda, Hiroaki Onoe, Shoji Takeuchi: A neurospheroid network-stamping method for neural transplantation to the brain, Biomaterials, vol. 31, pp. 8939-8945, 2010 [WEB]
  4. N. Misawa*, H. Mitsuno*, R. Kanzaki, S. Takeuchi: A Highly Sensitive and Selective Odorant Sensor using Living Cells Expressing Insect Olfactory Receptors, Proc. Natl. Acad. Sci. USA , vol. 107(35), pp. 15340-15344, 2010 (*: equal contribution) [WEB], selected in “This week in PNAS”, Highlighted in Nature Materials, and Cell
  5. S. Hiyama, Y. Moritani, R. Gojo, S. Takeuchi, K. Sutoh: Biomolecular-motor-based autonomous delivery of lipid vesicles as nano- or microscale reactors on a chip, Lab on a Chip, vol. 10, pp. 2741-2748, 2010 [WEB]
  6. Hirotaka Sasaki, Hiroaki Onoe, Toshihisa Osaki, Ryuji Kawano, Shoji Takeuchi: Parylene-coating in PDMS microfluidic channels prevents the absorption of fluorescent dyes, Sensors and Actuators B , vol. 150(1), pp. 478-482, 2010. [WEB]
  7. Masahiro Takinoue, Hiroaki Onoe, Shoji Takeuchi: Fusion and fission control of picoliter-sized microdroplets for changing the solution concentration of microreactors, Small , vol. 6(21), pp. 2374-2377, 2010 [WEB], selected as the cover of the issue
  8. Ryuji Kawano, Toshihisa Osaki, Hirotaka Sasaki, Shoji Takeuchi: A Polymer-based Nanopore-integrated Microfluidic Device for Generating Stable Bilayer Lipid Membranes, Small , vol. 6(19), pp. 2100-2104, 2010 [WEB], selected as the frontispiece of the issue
  9. Tetsuhiko Teshima, Hirotaka Ishihara, Kosuke Iwai, Aki Adachi, Shoji Takeuchi: A Dynamic Microarray Device for Paired Bead-based Analysis, Lab on a Chip, vol. 10, pp. 2443-244, 2010 [WEB], selected in the Emerging Investigators Issue
  10. Kaori Kuribayashi, Yukiko Tsuda, Hajime Nakamura and Shoji Takeuchi: Micro-patterning of Phosphorylcholine-based Polymers in a Microfluidic Channel, Sensors and Actuators B, vol. 149(1), pp. 177-183, 2010 [WEB]
  11. Nobuhiko Kojima, Ken Miura, Tomoki Matsuo, Hidenari Nakayama, Kikuo Komori, Shoji Takeuchi, Yasuyuki Sakai: Rapid and Direct Cell-to-Cell Adherence Using Avidin-Biotin Binding System: Large Aggregate Formation in Suspension Culture and Small Tissue Element Formation Having a Precise Microstructure Using Optical Tweezers, Journal of Robotics and Mechatronics, vol.22(5), pp. 619-622, 2010 [WEB]
  12. Shun-ichi Tamaru, Masato Ikeda, Yusuke Shimidzu, Shinji Matsumoto, Shoji Takeuchi, and Itaru Hamachi: Fluidic Supramolecular Nano- or Micro-fibers as Molecular Rails for Regulated Directional Movement of Nanosubstances, Nature Communication, vol.1(20), pp. 1-7, 2010 [WEB]
  13. Nobuhito Mori, Kaori Kuribayashi, and Shoji Takeuchi: Artificial Flagellates: Analysis of Advancing Motions of Biflagellate Micro-Objects, Applied Physics Letters, vol. 96, 083701, 2010 [WEB]
  14. Xuanhong Cheng, E. Yegan Erdem, Shoji Takeuchi, Hiroyuki Fujita, Buddy D. Ratner, Karl F. Bohringer: Infrared light induced patterning of proteins on ppnipam thermoresponsive thin films: a “protein laser printer”, Lab on a Chip, vol. 10, pp. 1079-1085, 2010 [WEB]
  15. Y. Tsuda, Y. Morimoto, and S. Takeuchi: Monodisperse cell-encapsulating peptide microgel beads for 3D cell culture, Langmuir, vol. 24(4), pp. 2645-2649, 2010 [WEB]
  16. Marta Bally, Janos Voros and Shoji Takeuchi: Multilayers of Hydrogels Loaded with Microparticles: A Fast and Simple Approach for Microarray Manufacturing, Lab on a Chip, vol. 10, pp. 372–378, 2010 [WEB]
2009
  1. Toshihisa Osaki, Hiroaki Suzuki, Bruno LePioufle and Shoji Takeuchi: Multichannel Simultaneous Measurements of Single Molecule Translocation in α-Hemolysin Nanopore Array, Analytical Chemistry, vol. 81(24), pp 9866-9870, 2009 [WEB]
  2. N. Misawa, and S. Takeuchi: Nano-depth grooves formed through O2 plasma etching in the presence of PTFE, Journal of Micromechanics and Microengineering, vol. 19, 115032(5pp), 2009 [WEB]
  3. Bassam Hajj, Sophie De Reguardati, Loic Hugonin, Bruno Lepioufle, Halina Mojzisova, Toshihisa Osaki, Hiroaki Suzuki, Shoji Takeuchi, Dominique Chauvat, and Joseph Zyss: Electro-Optical Imaging Microscopy of Dye-Doped Artificial Lipidic Membrane, Biophysical Journal, vol. 97(11), pp. 2913-2921, 2009 [WEB]
  4. Sadao Ota, Satoko Yoshizawa, and Shoji Takeuchi: Microfluidic Formation of Monodisperse, Cell-sized and Unilamellar Vesicles, Angewandte Chemie International Edition, vol. 48, pp. 6533-6537, 2009 [WEB] [Youtube], (highlighted in Nature Chem. and Lab. Chip)
  5. Satoshi Hiyama, Riho Gojo, Tomohiro Shima, Shoji Takeuchi, and Kazuo Sutoh: Biomolecular Motor-Based Nano- or Micro-Scale Particle Translocations on DNA Microarrays, Nano Letters, vol.9, no.6, pp.2407-2413, 2009 [WEB]
  6. Y. Morimoto, W. H. Tan, and S. Takeuchi: Monodisperse semi-permeable microcapsules for continuous observation of cells, Lab on a Chip, vol. 9, pp. 2217–2223, 2009 [WEB]
  7. Y Hara, H. Noji, and S. Takeuchi: Single-Biomolecule Observation with Micro One-way Valves for Rapid Buffer Exchange, Journal of Applied Physics, vol. 105, 102016, 2009 [WEB]
  8. Y. Morimoto, W. H. Tan, and S. Takeuchi: Three-Dimensional Axisymmetric Flow-Focusing Device using Stereolithography, Biomedical Microdevices, vol. 11(2), pp. 369-377, 2009 [WEB]
  9. H. Suzuki, B. Lepioufle, and Shoji Takeuchi: Ninety-six-well planar lipid bilayer chip for ion channel recording Fabricated by hybrid stereolithography, Biomedical Microdevices, vol. 11, pp. 17-22, 2009 [WEB]
2008
  1. H. Onoe, and S. Takeuchi: Microfabricated Mobile Microplates for Handling Single Adherent Cells, Journal of Micromechanics and Microengineering, vol. 18. p. 095003(7pp), 2008 [WEB]
  2. D. Collard, S. Takeuchi, and H. Fujita: MEMS technology for nano-bio research, Drug Discovery Today, vol. 13, no. 21-22, pp. 989-996, 2008 [WEB]
  3. H. Suzuki and Shoji Takeuchi: Microtechnologies for Membrane Protein Studies, Analytical and Bioanalytical Chemistry, vol. 391(8), pp. 2695-2702, 2008 [WEB]
  4. Liza Lam, S. Sakahihara, K. Ishizuka, S. Takeuchi, H. F. Arata, H. Fujita, and H. Noji: Loop-mediated isothermal amplification of a single DNA molecule in polyacrylamide gel-based microchamber, Biomedical Microdevices, vol. 10, pp. 539-546, 2008 [WEB]
  5. W-H. Tan and Shoji Takeuchi: Dynamic microarray system with gentle retrieval mechanism for cell encapsulating hydrogel beads, Lab on a Chip, vol. 7, pp. 259–266, 2008 [WEB]
  6. Bruno Le Pioufle, Hiroaki Suzuki, Kazuhito Tabata, Hiroyuki Noji, and Shoji Takeuchi: Lipid Bilayer Microarray for Parallel recording of Transmembrane Ion Currents, Analytical Chemistry, vol. 80(1), pp. 328-332, 2008 [WEB]
2007
  1. Kei Funakoshi, Hiroaki Suzuki, and Shoji Takeuchi: Formation of giant lipid vesicle-like compartments from a planar lipid membrane by a pulsed jet flow, Journal of the American Chemical Society, vol. 129, pp. 12608-12609, 2007 [WEB]
  2. Liza Lam, Shouichi Sakakihara, Koji Ishizuka, Shoji Takeuchi, Hiroyuki Noji: An integrated system for enzymatic cleavage and electrostretching of freely-suspended single DNA molecules, Lab on a Chip, vol. 8, pp. 1738-1745, 2007 [WEB]
  3. Wei-Heong TAN and Shoji TAKEUCHI: Monodisperse Alginate Hydrogel Microbeads for Cell Encapsulation, Advanced Materials, vol. 19, pp. 2696-2701, 2007 [WEB]
  4. Wei-Heong TAN and Shoji TAKEUCHI: A Trap-and-Release Integrated Microfluidic System for Dynamic Microarray Applications, Proceedings of the National Academy of Sciences, vol. 104, no. 4, pp. 1146-1151, 2007 [WEB]
  5. K. Atsuta, H. Suzuki and S. Takeuchi: A Parylene Lift-off Process with Microfluidic Channels for Selective Protein Patterning, Journal of Micromechanics and Microengineering, vol. 17, pp. 496-500, 2007 [WEB]
  6. Hiroaki Suzuki, Kazuhito V. Tabata, Hiroyuki Noji and Shoji Takeuchi: Electrophysiological recordings of single ion channels in planar lipid bilayers using a polymethyl methacrylate microfluidic chip, Biosensors and Bioelectronics, vol. 22, no. 6, pp. 1111-1115, 2007 [WEB]
2006
  1. Kei Funakoshi, Hiroaki Suzuki, and Shoji Takeuchi: Lipid bilayer formation by contacting monolayers in a microfluidic device for membrane protein analysis, Analytical Chemistry, vol. 78, pp. 8169-8174, 2006 [WEB] (accelerated article; the cover of the issue)
  2. K. Kuribayashi, G. Tresset, Ph. Coquet, H. Fujita and S. Takeuchi: Electroformation of Giant Liposomes in Microfluidic Channels, Measurement Science and Technology, vol. 17, pp. 3121-3126, 2006 [WEB]
  3. Dominik Ziegler, Takafumi Suzuki and Shoji Takeuchi: Fabrication of Flexible Neural Probes with Built-in Microfluidic Channels Realized by Thermal Bonding of Parylene, Journal of Microelectromechanical Systems, vol. 15, no. 6, pp. 1477-1482, 2006. [Web]
  4. Shih-Hao Huang, Wei-Heong Tan, Fan-Gang Tseng and Shoji Takeuchi: A monolithically three-dimensional flow-focusing device for formation of single/double emulsions in the closed/open microfluidic systems, Journal of Micromechanics and Microengineering, vo.l 16, pp. 2336-2344, 2006. [Web]
  5. Yumi Yoshida, Ryuji Yokokawa, Hiroaki Suzuki, Kyoko Atsuta, Hiroyuki Fujita, and Shoji Takeuchi: Biomolecular linear motors confined to move upon micro-patterns, Journal of Micromechanics and Microengineering, vol. 16, pp. 1550-1554, 2006. [Web]
  6. Wei-Heong Tan and Shoji Takeuchi: Timing controllable electrofusion device for aqueous droplet-based microreactors, Lab on a chip, vol. 6, pp. 757-763, 2006. [Web]
  7. Hiroaki Suzuki, Kazuhito V. Tabata, Hiroyuki Noji and Shoji Takeuchi: Highly reproducible Method for Planar Lipid Bilayer Reconstituted using a Micro Fluidic Chip, Langmuir, 22, 1937-1942, 2006. [Web]
  8. A. Debray, T. Nakakubo, A. Yokoi, S. Mogi, K. Ueda, M. Shibata, S. Takeuchi and H. Fujita: A micro-machined safety valve for power applications with improved sealing, Journal of Micromechanics and Microengineering, vol.16 pp. S240-S247, 2006. [Web]
2005
  1. Shoji Takeuchi, Willow R. DiLuzio, Douglas B. Weibel, and George M. Whitesides: Controlling the Shape of Filamentous Cells of Escherichia Coli, Nano Letters, vol. 5(9), pp. 1819-1823, 2005. [Web]
  2. Shoji TAKEUCHI, Dominik ZIEGLER, Yumi YOSHIDA, Kunihiko MABUCHI, Takafumi SUZUKI: A Parylene Flexible Neural Probe Integrated with Micro Fluidic Channels, Lab on a Chip, vol. 5, pp. 519–523, 2005. [Web]
  3. Guillaume Tresset and Shoji Takeuchi: Utilization of Cell-Sized Lipid Containers for Nanostructures and Macromolecules Handling in Microfabricated Devices, Analytical Chemistry, vol. 77, pp. 2795-2801, 2005. [Web]
  4. Ryuji Yokokawa, Yumi Yoshida, Shoji Takeuchi, T. Kon, K. Sutoh, H. Fujita: Evaluation of Cryopreserved Microtubules Immobilized in Microfluidic Channels for Bead-Assay-Based Transportation System, IEEE Transactions on Advanced Packaging, vol. 28(4), pp. 577-583, 2005. [Web]
  5. Shoji Takeuchi, Piotr Garstecki, Douglas B. Weibel, and George M. Whitesides: An Axisymmetric Flow-Focusing Microfluidic Device, Advanced Materials, vol. 17, no. 8, pp. 1067-1072, 2005 [Web]
  6. Yannick Rondelez, Guillaume Tresset, Kazuhito V. Tabata, Hideyuki Arata, Hiroyuki Fujita, Shoji Takeuchi, Hiroyuki Noji: Microfabricated array of femtoliter chambers allow single molecule enzymology, Nature Biotechnology, vol. 23, no. 3, pp. 361-365, 2005. [Web]
  7. Yannick Rondelez, Guillaume Tresset, Takako Nakashima, Yasuyuki Kato-Yamada, Hiroyuki Fujita, Shoji Takeuchi, Hiroyuki Noji: Highly coupled ATP synthesis by F1-ATPase single molecules, Nature, vol. 433, pp. 773-777, 2005. [Web]
  8. Hiroyuki Noji, Yannick Rondelez, Takako Nakashima, Guillaume Tresset, Kazuhito Tabata, Yasuyuki Kato-Yamada, Hiroyuki Fujita and Shoji Takeuchi: Ultra-small chamber for single-molecule detection of biological reaction, e-J. Surf. Sci. Nanotech. Vol. 3, pp. 79-81, 2005. [Web]
2004
  1. Yokokawa, R.; Takeuchi, S.; Kon, T.; Nishiura M.; Sutoh K.; Fujita H.: Unidirectional transport of kinesin-coated beads on microtubules oriented in a microfluidic device’, Nano Letters, vol. 4(11), pp. 2265–2270, 2004. [Web]
  2. Hiroaki Suzuki, Kazuhito Tabata, Yasuyuki Kato-Yamada, Hiroyuki Noji, and Shoji Takeuchi: Planar lipid bilayer reconstitution with micro fluidic system, Lab on a chip, vol.4, 502-505, 2004. [Web]
  3. Guillaume TRESSET and Shoji TAKEUCHI: A Microfluidic Device for Electrofusion of Biological Vesicles, Biomedical Microdevices, Vol. 6(3), pp. 213-218, 2004. [Web]
  4. Ryuji Yokokawa, Shoji Takeuchi, Hiroyuki Fujita: Ultra-smooth glass channels for bioassay with motor proteins, Analyst, vol. 129, pp. 850-854, 2004. [Web]
  5. Kyoko Atsuta, Hiroyuki Noji, and Shoji Takeuchi: Micro patterning of active proteins with perforated PDMS sheets (PDMS Sieve), Lab on a Chip, vol. 4, pp. 333-336, 2004. [Web]
  6. Ryuji YOKOKAWA, Shoji TAKEUCHI, M. Nishiura, R. Ohkura, T. Kon, K. Sutoh, H. Fujita, Hybrid Nano Transfer System by Biomolecular Linear Motors, Journal of Microelectromechanical Systems, vol. 13, no. 4, pp. 612-619, 2004. [Web]
  7. Shoji TAKEUCHI, Takafumi SUZUKI, Kunihiko MABUCHI, Hiroyuki FUJITA: 3D Flexible Multichannel Neural Probe Array, Journal of Micromechanics and Microengineering, vol.14, pp. 104-108, 2004. [Web]
  8. Hoshi Y, Kawagishi T, Kawai S, Kobayashi D, Kim J, Cho YH, Takeuchi S, Kim B, and Kawakatsu H: Observation of self-assembled monolayer using the lateral resonance of the cantilever in the contact and noncontact region, Japanese Journal of Applied Physics, 43 (7B): 4533-4536, 2004. [Web]
  9. Shoji Takeuchi and Isao Shimoyama: A Radio-telemetry System with a Shape Memory Alloy Microelectrode for Neural Recording of Freely Moving Insects, IEEE Transaction on Biomedical Engineering, vol. 51(1), pp. 133-137, 2004. [Web]
2003
  1. Shoji Takeuchi and Isao Shimoyama: Standing Microcoil Actuator Array, Japanese Journal of Applied Physics, vol. 42, pp. 3695-3697, 2003. [Web]
Japanese
    • 松下和麿,森本雄矢,竹内昌治: 培養骨格筋をアクチュエータとした泳動ロボットの作製, 日本機械学会論文集, 86 巻 890 号 p. 20-00180, 2020 [Web]
    • 渡辺吉彦,大崎寿久,竹内昌治: 細胞サイズの脂質二重膜マイクロチャンバーにおける電流シグナル計測と経時安定性向上, 電気学会E部門誌, vol. 131, no. 12, pp. 414-418, 2011
    • 辻祐太郎, 川野竜司,大崎寿久,佐々木啓孝,三木則尚,竹内昌治: 接触法による膜たんぱく質のアレイ化, 電気学会E部門誌, vol. 131, no. 12, pp. 419-424, 2011
    • 檜山聡、森谷優貴、竹内昌治、須藤和夫:分子モータとDNAを用いた分子カプセル配送システム、ロボット学会誌、vol. 28, no. 10, pp. 1172-1175, 2010.
    • 石原宏尚、竹内昌治:誘電泳動機能を有するダイナミックマイクロアレイ、化学とマイクロナノシステム、vol, 9, no. 1, pp. 13-17, 2010. (in Japanese) [reprint]
    • 五條理保、森本雄矢、竹内昌治:簡易マイクロデバイス作製法、生物物理、vol, 50, no. 1, pp. 38-41, 2010. (in Japanese)
    • 木村啓志,中村寛子,岩井孝介,山本貴富喜,竹内昌治,藤井輝夫,酒井康行:ダイナミックマイクロアレイを用いた受精卵操作の自動化の試み、電気学会E部門誌、vol, 129, no. 8, pp. 252-258, 2009. (in Japanese)
    • 中村元、平塚祐一、竹内昌治:マイクロ搬送システムのためのモータータンパク質の形状制御、電気学会C部門誌、vol, 127, no. 10, pp. 1504-1507, 2007. (in Japanese)
    • 鈴木隆文、小竹直樹、満渕邦彦、竹内昌治:束状微小流路を利用した神経再生型電極の開発、電気学会C部門誌、vol, 127, no. 10, pp. 1544-1548, 2007. (in Japanese)
    • 野地博行、Yanik Rondelez, Guillaume Tresset、藤田博之、竹内昌治:超微小チャンバーを利用した1分子バイオアッセイ、化学とマイクロ・ナノシステム, vol.3, no. 2, pp. 12-14, 2005. (in Japanese)
    • 新田英之、竹内昌治、野地博行、藤田博之:顕微鏡観察下における局所的温度制御のためのマイクロデバイス、電気学会誌、vol. 124-E, no. 8, pp. 284-288, 2004. (in Japanese)
    • 赤松直樹,鈴木隆文,満渕邦彦,藤田博之,金範埈,竹内昌治:神経電位計測用フレキシブルシリコンプローブアレイ, 電気学会誌,vol. 123-E, no. 12, pp. 571-576, 2003. (in Japanese)

International Conference Proceedings

2007
  • T. Yamamura, M. Kitamura, K. Kuribayashi, Y. Arakawa, and S. Takeuchi, Flexible Organic LEDs with Parylene Thin Films for Biological Implants, MEMS2007, pp. 739-742, 2007.
  • Y. Hiratsuka, and S. Takeuchi, Toward a Microrotary Motor Driven by Motor Proteins, MEMS2007, pp. 695-698, 2007.
  • K. Kuribayashi, Y. Hiratsuka, T. Yamamura, and S. Takeuchi, Sequential Parylene Lift-off Process for Selective Patterning of Biological Materials, MEMS2007, pp. 501-504, 2007.
  • H. Kitagawa, W. H. Tan, and S. Takeuchi, Mass Production of Uniform Alginate Capsules for Micro Cell Encapsulation using Micro Chamber Array, MEMS2007, pp. 493-496, 2007.
  • H. Suzuki, T. Pucadyil, R. Ramachandran, S. Takeuchi, S. L. Schmid, Supported Lipid Bilayer Array to Study Clathrin Mediated Endocytosis in Vitro, MEMS2007, pp. 481-484, 2007.
  • S-H. Huang, W. H. Tan, F. G. Tseng, and S. Takeuchi, Systhesis of Bio-Functionalized Copolymer Particles in 3D Microfluidic Devices, MEMS2007, pp. 449-452, 2007.
  • H. Nakamura, Y. Hiratsuka, R. Ishikawa, K. Kohama, and S. Takeuchi, Shape Control of Filamentous Motor Proteins for Bio-Nano Driving Unis, MEMS2007, pp. 409-412, 2007.
  • M. C. Tarhan, R. Yokokawa, F. O. Morin, S. Takeuchi, and H. Fujita: Sorting and Direct Transportation of Target Molecules by Bio-Molecular Selectivity and Motor Function, MEMS2007, pp. 23-26, 2007.
2006
  • K. Kuribayashi, B. L. Pioufle, S. Takeuchi, “Hydrodynamnic Manipulation and Selective Immobilization of Giant Liposomes”, microTAS2006, pp. 1534-1536, 2006.
  • W. H. Tan and S. Takeuchi, An optical retrieval microfluidic system for microarray applications, microTAS2006, vol. 1, pp. 509-511, 2006.
  • H.Kitagawa, W. H. Tan, and S. Takeuchi, Numerous water-in-oil droplets as microreactors in microchamber array, microTAS2006, pp. 290-292, 2006.
  • H. Suzuki, K. Tabata, H. Noji, S. Takeuchi, “Development of an assay system for ABC transporters reconstituted in an artificial lipid bilayer”, microTAS2006, Tokyo, Japan, pp. 1363-1365, 2006.
  • K. Funakoshi, H. Suzuki, S. Takeuchi, Blowing Vesicle: a Simple Method for Direct Microencapsulation in Lipid Vesicles, microTAS2006, pp. 534-536, 2006.
  • B. Le Pioufle, C. Yamahata, K. Funakoshi, H. Suzuki, A. Tixier-Mita, H. Fujita and S. Takeuchi, Low Cost Microfabricated Silicon Chip for Membrane Protein Monitoring, microTAS2006, pp. 1393-1395, 2006.
  • N. Yamanaka, K. Kuribayashi, K. Funakoshi, H. Suzuki, and S. Takeuchi, Giant Proteoliposome array in Microchambers, microTAS2006, pp. 1354-1356, 2006.
  • S. H. Huang, W. H. Tan, F. G. Tseng, and S. Takeuchi, A Monolithic 3D Flow-Focusing Device for the Formation of Single/Double Emulsions in a Closed/Open Microfluidic System, microTAS2006, pp. 591-593, 2006.
  • C. Yamahata, A. Tixer-Mita, B. Le Pioufle, H. Suzuki, E. Sarajlic, M. Kumemura, S. Takeuchi, D. Collard, and H. Fujita, Batch Fabricated Micro and Nanopores in Silicon for Particle Translocation Detection, microTAS2006, pp. 182-184, 2006.
  • K. Kuribayashi, B. L. Pioufle, S. Takeuchi, “Giant Liposomes in Micro-Fluidic Device – Towards an efficient preparation, manipulation and immobilization method “, 5th East Asian Biphys. Sympo. & 44th Annu. Meet. Biophy. Soc. Japan (EABS & BSJ), Okinawa, Japan, pp. S365, 2006.
  • H. Suzuki, K. Tabata, H. Noji, S. Takeuchi, “Membrane Transport Assay System for Transporter Proteins Using Artificial Lipid Bilayers”, 5th East Asian Biphys. Sympo. & 44th Annu. Meet. Biophy. Soc. Japan (EABS & BSJ), pp. S234, 2006.
  • Kei Funakoshi, Hiroaki Suzuki, and Shoji Takeuchi, Formation of Ultra Giant Vesicles from a Planar Lipid Membrane, 5th East Asian Biphys. Sympo. & 44th Annu. Meet. Biophy. Soc. Japan (EABS & BSJ), 2P279, 2006.
  • H. Kitagawa, W. H. Tan, and S. Takeuchi, Emulsion based microreactor array in microchamber, 5th East Asian Biphys. Sympo. & 44th Annu. Meet. Biophy. Soc. Japan (EABS & BSJ), 2006.
  • Shoji Takeuchi, Microfluidic Devices for membrane protein analysis, 5th East Asian Biphys. Sympo. & 44th Annu. Meet. Biophy. Soc. Japan (EABS & BSJ), 2006.
  • K. Funakoshi, H. Suzuki, S. Takeuchi, Formation of Lipid Vesicles from a Planar Lipid Bilayer Using Pulsed Jet Flow, Proc. Int. Conf. on Microtechnologies in Medicine and Biology (MMB), pp. 68-69, 2006.
  • H. Suzuki, K. Tabata, H. Noji, S. Takeuchi, “Characterization of the Membrane Transport Assay Using Microchamber Array”, Proc. Int. Conf. on Microtechnologies in Medicine and Biology (MMB), pp. 301-302, 2006.
  • Takafumi Suzuki, Naoki Kotake, Kunihiko Mabuchi, Shoji Takeuchi: Flexible regeneration-type nerve electrode with integrated micro fluidic channels, Proc. Int. Conf. on Microtechnologies in Medicine and Biology (MMB), pp. 303-305, 2006.
  • Y. Yoshida, T. Shimozawa, T. Nishizaka, S. Ishiwata, and S. Takeuchi, Muscle proteins as high speed nano transporters on micro patterns, MEMS2006, pp. 134-137, 2006.
  • Hiroaki Suzuki, Kazuhito V. Tabata, Hiroyuki Noji, and Shoji Takeuchi: Lipid bilayer microchambers: an optical detection system for membrane transport, MEMS2006, pp. 482-485, 2006.
  • W.-H. Tan and S. Takeuchi: Arrayed monodisperse micro-alginate beads in μ-fluidic traps for cell assay, MEMS2006, pp. 534-537, 2006.
2005
  • W. Tan and S. Takeuchi, Timing Controllable Electrofusion of Droplets in a Microfluidic Device, microTAS2005, vol 1, pp. 506-508, 2005.
  • K. Funakoshi, H. Suzuki, S. Takeuchi, Lipid Bilayer Formation by Contacting Monolayers, microTAS 2005, Vol. 2, pp. 951-953, 2005.
  • H. Suzuki, K. V. Tabata, H. Noji, S. Takeuchi, Simultaneous Reconstitution of Multiple Planar Lipid Bilayers, microTAS 2005, Vol. 2, pp. 1300-1302, 2005.
  • K. Kuribayashi and S. Takeuchi, Formation of Monodisperse Giant liposomes using micro-patterned lipid films, uTAS2005, vol 2. p.1455-1457, 2005.
  • Koji Ishizuka, H. Arata, S. Sakakihara, C. Bergaud, K.V.Tabata, Y. Rondelez, S. Takeuchi, H. Fujita, H. Noji, microTAS2005
  • K. Kuribayashi, G. Tresset, Ph. Coquet, H. Fujita and S. Takeuchi: Electroformation of Giant Liposomes in Microfluidic Channels, Transducers05, pp. 1159-1162, 2005
  • Kyoko ATSUTA, Hiroaki SUZUKI and Shoji TAKEUCHI: Selective protein patterning in microfluidic channels using a parylene lift-off process, Transducers05, pp.1584-1587, 2005
  • D. Ziegler, Ph. Coquet, A. Tixier-Mita, G. Tresset, H. Fujita, and S. Takeuchi: Microfluidic device for immobilization of bio-vesicles towards controlled on-chip electrofusion, Transducers05, pp. 360-363 , 2005
  • Ryuji Yokokawa, Yumi Yoshida1, Shoji Takeuchi, Takahide Kon, Kazuo Sutoh, Hiroyuki Fujita: Beads Actuation with Kinesin on A Microtubule Immobilized in A Nano Fluidic Channel, Transducers05, pp. 73-76, 2005
  • Hideyuki Arata, C. Bergaud, H. Noji, S. Takeuchi and H. Fujita: Temperature Distribution Measurement on Micro-Thermo Device for Single Biomolecular Observation using Fluorescent Dye, Transducers05, pp. 1672-1675, 2005
  • Yumi Yoshida, Ryuji Yokokawa, Hiroaki Suzuki, Kyoko Atsuta, Hiroyuki Fujita and Shoji Takeuchi: Biomolecular Linear Motors Confined to Move upon Micropatterns on Glass, MEMS2005, pp. 750-753, 2005.
2004
  • Takafumi Suzuki, Dominik Ziegler, Kunihiko Mabuchi, and Shoji Takeuchi: Flexible neural probes with micro-fluidic channels for stable interface with the nervous system, Proceedings of the 26th Annual International Conference of the IEEE EMBS, pp. 4057-4058, 2004.
  • Takafumi Suzuki, Shoji Takeuchi, Dominik Ziegler, Osamu Fukayama, Yosuke Morishita, Dominic Frutiger, Kazuhiko Ishii, Kunihiko Mabuchi: Development of flexible neural probes and their application to rat brain interfaces, Proc. of SICE2004, 2377-2380 (2004)
  • Ryuji YOKOKAWA, Shoji TAKEUCHI, Hiroyuki FUJITA: Unidirectional Transfer of Microbeads by Biomolecular Linear Motors, Asia-Pacific Conference of Transducers and Micro-Nano Technology (APCOT MNT), July 4-7, 2004.
  • Guillaume Tresset and Shoji Takeuchi: UTILIZATION OF CELL-SIZED LIPID CONTAINERS FOR NANOSTRUCTURE AND SINGLE MOLECULE MANIPULATION, uTAS2004, 2004
  • Hiroaki Suzuki, K. Tabata, Y. Kato-Yamada, Hiroyuki Noji, and Shoji Takeuchi: PLANAR LIPID BILAYER CHIP FOR ELECTROPHYSIOLOGICAL ANALYSIS OF MEMBRANE PROTEINS, uTAS2004, 2004
  • Dominik Ziegler, T. Suzuki, and Shoji Takeuchi: Parlyene Thin-Film Neural Probes with Fluidic Connector, uTAS2004, 2004
  • Kyoko Atsuta, Hiroaki Suzuki and Shoji Takeuchi: FINE PATTERNING OF PROTEIN WITH PARYLENE SHEET, uTAS2004, 2004
  • Y. Rondelez, G. Tresset, Y. Yamada-Kato, H. Fujita, S. Takeuchi, H. Noji: Winding up Single F1-Motor Protein in Femtoliter Chambers: The Molecular Pull-Back Car, uTAS2004, 2004
  • Ryuji Yokokawa, Shoji Takeuchi, Takahide Kon, Masaya Nishiura, Kazuo Sutoh, Hiroyuki Fujita: Unidirectional Transportation of Nano Beads by Kinesin on Microtubules Well-oriented in a Micro Channel, uTAS2004, 2004
  • Ryuji YOKOKAWA, Shoji TAKEUCHI, Hiroyuki FUJITA: Ultra-smooth Glass Channels Allowing Non-fluorescent Observation of Bio-molecules by Microscopes, uTAS2004, 2004
  • H. Arata, Y. Rondelez, G. Tresset, S. Takeuchi, H. Noji, H. Fujita: ENZYMATIC ACTIVITY MEASUREMENT AT HIGH TEMPERATURE BY MOMENTARY HEATING WITH ON-CHIP MICRO HEATER, uTAS2004, 2004
  • Hiroaki Suzuki, Y. Kato-Yamada, Hiroyuki Noji, and Shoji Takeuchi: PLANAR LIPID MEMBRANE ARRAY FOR MEMBRANE PROTEIN CHIP, Proceeding of IEEE International Micro Electro Mechanical Systems (MEMS’04), pp. 272-275, 2004.
  • Guillaume Tresset and Shoji Takeuchi: A Microfluidic Device for Electrofusion of Biological Membranes, Proceeding of IEEE International Micro Electro Mechanical Systems (MEMS’04), pp. 25-28, 2004.
  • Kyoko Atsuta, Hiroyuki Noji, and Shoji Takeuchi: Protein Patterning with PDMS Sieve, Proceeding of IEEE International Micro Electro Mechanical Systems (MEMS’04), pp. 330-333, 2004.
  • Hideyuki Arata, Shoji Takeuchi, Guillaume Tresset, Yanik Rondelez, Hiroyuki Noji, and Hiroyuki Fujita: MEMS Devices for Detecting Correspondence between Mechanical Rotation and ATP Consumption in a Single Biomolecular Motor, Proceeding of IEEE International Micro Electro Mechanical Systems (MEMS’04), pp. 363-366, 2004.
  • Shoji Takeuchi, Yumi Yoshida, Kunihiko Mabuchi, Takafumi Fujita: Parylene Flexible Neural Probe with Microfluidic Channel, Proceeding of IEEE International Micro Electro Mechanical Systems (MEMS’04), pp. 208-210, 2004.
2003
  • N. Akamatsu, T. Suzuki, K. Mabuchi, H. Fujita, B. J. Kim, and S. Takeuchi, “Fabrication and Evaluation of A Silicon Probe Array on a Flexible Substrate for Neural Recording,” Proc. of the 25th Annual International Conference of the IEEE Engineering In Medicine And Biology Society (EMBS), Cancun, Mexico, pp. 3802-3805, Sept. 18, 2003
  • Y. Rondelez, G. Tresset, K. Tabata, S. Takeuchi and H. Noji: Femtoliter Chambers for the Study of Mechanically-Driven ATP Synthesis by F1 Protein-Motor, uTAS2003, pp. 555-558, 2003
  • J. W. Kim, Y. Yamagata, B. J. Kim, S. Takeuchi and T. Higuchi: Biosensor based on SU-8 Cantilever by using the Electrospray Deposition of Proteins, uTAS2003, pp. 399-402 2003
  • H. Arata, S. Takeuchi, G. Tresset, K. Tabata, Y. Rondelez, H. Noji and H. Fujita: Device for Activity Measurement of Single Bio-Molecular Motor-Temperature Control Device and Micro chamber-, Proc. the 20th Sensor Symposium, pp. 119-122, 2003.
  • Ryuji Yokokawa, Shoji Takeuchi, Takahide Kon, Masaya Nishiura, Masaki Edamatsu, Kazuo Sutoh, and Hiroyuki Fujita: On/Off Control of Biomolecular Motors in a Microfluidic Device, Transducers’03, pp. 1128-1131, June 8-12, 2003.
  • Takafumi Suzuki, Kunihiko Mabuchi, and Shoji Takeuchi: A 3D flexible parylene probe array for multichannel neural recording, IEEE Neural Engineering, March 20-22, pp. 154-156, 2003.
  • Mie MITSUI, Shoji TAKEUCHI, Takafumi SUZUKI, Michiko OHKURA, Kunihiko MABUCHI: Flexible intra-fascicular nerve electrodes for the recordings of autonomous nerves, IEEE Neural Engineering, March 20-22, pp. 67-70, 2003.
  • Shoji Takeuchi, Takafumi Suzuki, Kunihiko Mabuchi, Hiroyuki Fujita: 3-D Flexible Multichannel Probe Array, Proceeding of IEEE International Micro Electro Mechanical Systems (MEMS’03), pp. 367-370, Kyoto, Jan. 19-23, 2003.
  • Ryuji Yokokawa, Shoji Takeuchi, Takahide Kon, Reiko Ohkura, Masaki Edamatsu, Kazuo Sutoh, Hiroyuki Fujita:Transportation of Micromachined Structures by Biomolecular Linear Motors, Proceeding of IEEE International Micro Electro Mechanical Systems (MEMS’03), pp. 8-11, Kyoto, Jan. 19-23, 2003.

Books

  • 満渕、鈴木、竹内:実世界五感情報の遠隔再構成人と共存するコンピュータ・ロボット学, 佐藤知正 編著, オーム社, 103-112 (2004)
  • 竹内昌治:分子機械におけるナノ・マイクロ構造、構造力学ハンドブック,丸善 pp.795-796、2004
  • 竹内昌治:生物の不思議をさぐるマイクロマシン技術(バイオハイブリッドマシン)、バイオ学び,バイオを超える,渡辺 正 編著, 日本評論社 pp. 161-178、2004