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  • Original papers (Peer-reviewed)

    1. “Selective self-assembly of three-component system based on hydrophilic/hydrophobic patterning”
      Taiki Okuyama, Tatsuya Hikida, Taiji Okano, and Hiroaki Suzuki
      Sensors and Actuators A, 312, 112143 (2020)
    2. “Ejection of Large Particulate Materials from Giant Unilamellar Vesicles Induced by Electropulsation”
      Shota Katsuta, Taiji Okano, Keiichiro Koiwai, and Hiroaki Suzuki
      Langmuir, 35, pp.13196—13204 (2019)
    3. “Selective bonding method for self-assembly of heterogeneous components using patterned surfaces”
      Kazuki Kimura, Taiki Okuyama, Taiji Okano, and Hiroaki Suzuki
      Sensors and Actuators A, 279, pp.306—312 (2018)
    4. “A fluidics-based impact sensor”
      Daigo Takahashi, Keisuke Hara, Taiji Okano, and Hiroaki Suzuki
      PLOS ONE, 13, e0195741 (2018)
    5. “Deformation Modes of Giant Unilamellar Vesicles Encapsulating Biopolymers”
      Taiji Okano, Koya Inoue, Kaoru Koseki, and Hiroaki Suzuki
      ACS Synthetic Biology, 7, pp.739—747 (2018)
    6. “One-step micromolding of complex 3D microchambers for single-cell analysis”
      Hiroaki Suzuki, Kenta Mitsuno, Katsuyuki Shiroguchi, Mamiko Tsugane, Taiji Okano, Tetsuji Dohi, and Tomoaki Tsuji
      Lab on a Chip, 17, pp.647—652 (2017)
    7. “Self-assembly of artificially manufactured microcomponents using the entropic effect”
      Ushio Okabe, Taiji Okano, and Hiroaki Suzuki
      Sensors and Actuators A, 254, pp.43—53 (2017)
    8. “Cell-free Protein Synthesis in a Microchamber Revealed the Presence of an Optimum Compartment Volume for High-order Reactions”
      Taiji Okano, Tomoaki Matsuura, Hiroaki Suzuki, and Tetsuya Yomo
      ACS Synthetic Biology, 3, pp.347—352 (2014)
    9. “Cluster synchronization in a chemical oscillator network with adaptive coupling”
      Kenji Miyakawa, Taiji Okano, and Shoji Yamazaki
      Journal of the Physical Society of Japan, 82, pp.034005-1—034005-6 (2013)
    10. “Cell-free protein synthesis from a single copy of DNA in a glass microchamber”
      Taiji Okano, Tomoaki Matsuura, Yasuaki Kazuta, Hiroaki Suzuki, and Tetsuya Yomo
      Lab on a Chip, 12, pp.2704—2711 (2012)
    11. “Control of noise-induced coherent behaviors in an array of excitable elements by time-delayed feedback”
      Taiji Okano and Kenji Miyakawa
      Physical Review E, 82, pp.027202-1—027202-4 (2010)
    12. “Feedback-controlled dynamics in a two-dimensional array of active elements”
      Taiji Okano and Kenji Miyakawa
      Physical Review E, 80, pp.026215-1—026215-6 (2009)
    13. “Array-enhanced coherence resonance and phase synchronization in a two-dimensional array of excitable chemical oscillators”
      Taiji Okano, Akane Kitagawa, and Kenji Miyakawa
      Physical Review E, 76, pp.046201-1—046201-6 (2007)
    14. “Successive splitting of autowaves in a nonlinear chemical reaction medium”
      Taiji Okano, Yuki Matsuda, and Kenji Miyakawa
      Physical Review E, 74, pp.066103-1—066103-6 (2006)
    15. “Spatiotemporal dynamics in a linear array of coupled coherence resonance oscillators”
      Kenji Miyakawa, Taiji Okano, and Takayuki Tanaka
      Progress of Theoretical Physics Supplement, 161, pp.260—264 (2006)
    16. “Noise-induced spatiotemporal dynamics in a linear array of excitabl echemical oscillators”
      Kenji Miyakawa, Taiji Okano, and Takayuki Tanaka
      Physical Review E, 71, pp.066202-1—066202-6 (2005)

    Conference Proceedings (Peer-reviewed)

    1. “Capsule vending machine-like device for cell release with equal intervals”
      Meito Fukada, Kazuma Saito, and Taiji Okano
      Proceedings of MicroTAS 2021, 243—244 (2021)
    2. “Battery-free Built-in Micropump Driven by a Self-propelled Droplet”
      Taiji Okano, Kazuki Otsubo, Junya Wada, and Hiroaki Suzuki
      Proceedings of MicroTAS 2020 (2020)
    3. “Ejection of Large Particulate Materials from Giant Unilamellar Vesicles”
      Shota Katsuta, Taiji Okano, and Hiroaki Suzuki
      Proceedings of MicroTAS 2019 (2019)
    4. “A Pumpless Mixer for Efficient Capturing of Small Particles Utilizing Vibration-Induced Flow”
      Kanji Kaneko, Taiji Okano, Takeshi Hayakawa, Yosuke Hasegawa, and Hiroaki Suzuki
      Proceedings of MEMS 2019, 406—408 (2019)
    5. “Towards Developing a "Droplet Motor" Driven by the Belousov-Zhabotinsky Reaction: Control of Self-propelled Motion Using a Ratchet Microchannel”
      Taiji Okano, Kazuki Otsubo, Junya Wada, and Hiroaki Suzuki
      Proceedings of MicroTAS 2018, 337—339 (2018)
    6. “Shape Study of Giant Liposomes Containing Macromolecules as an Artificial Cell Mimic”
      Taiji Okano, Koya Inoue, and Hiroaki Suzuki
      Proceedings of NEMS 2018 (2018)
    7. “Reagent Handling and Delivery System Using Cell-Sized Liposomes”
      Shota Katsuta, Taiji Okano, and Hiroaki Suzuki
      Proceedings of NEMS 2018 (2018)
    8. “Microfluidic Device for Selective Manipulation of Giant Liposomes”
      Taiji Okano and Hiroaki Suzuki
      Proceedings of MicroTAS 2017, 1567—1568 (2017)
    9. “The Selective Binding Technique Using Hydrophilic/Hydrophobic Patterning for Self-assembly”
      Taiki Okuyama, Taiji Okano, and Hiroaki Suzuki
      Proceedings of MicroTAS 2017, 323—324 (2017)
    10. “Self-assembly of Multi-component Microstructure Using the Entropic Effect”
      Ushio Okabe, Taiji Okano, and Hiroaki Suzuki
      Proceedings of MEMS 2016 (2016)
    11. “Liposome-based Liquid Handling for Biochemical Reactions”
      Taiji Okano, Hiroaki Suzuki, and Tetsuya Yomo
      Proceedings of MicroTAS 2015, 2032—2034 (2015)
    12. “Liquid Handling of Minute Volume Using the Hydrogel Encapsulating Liposomes”
      Kazuyuki Takahashi, Taiji Okano, and Hiroaki Suzuki
      Proceedings of MicroTAS 2015, 478—480 (2015)
    13. “3D-shaped Microchamber for the Single-cell Analysis”
      Kenta Mitsuno, Hiroki Ikeda, Mamiko Tsugane, Taiji Okano, Katsuyuki Shiroguchi, and Hiroaki Suzuki
      Proceedings of MicroTAS 2015, 522—524 (2015)
    14. “Optimization of the Entropic Self-assembly of Microcomponents”
      Ushio Okabe, Taiji Okano, and Hiroaki Suzuki
      Proceedings of MicroTAS 2015, 1416—1418 (2015)
    15. “Polymer-based Disposable Accelerometer”
      Daigo Takahashi, Taiji Okano, and Hiroaki Suzuki
      Proceedings of ISMM 2015 (2015)
    16. “3-D Self-assembly Using the Hydrophilic/hydrophobic Patterning”
      Kazuki Kimura, Taiji Okano, and Hiroaki Suzuki
      Proceedings of ISMM 2015 (2015)
    17. “Self-assembly of microcomponents using the entropic effect”
      Ushio Okabe, Taiji Okano, and Hiroaki Suzuki
      Proceedings of MEMS 2015, 300—303 (2015)

    Grants

    1. Development of a programmable chemical computer driven by a network of chemical oscillators
      Apr. 2023 — Mar. 2026
      Grant-in-Aid for Scientific Research (C)
    2. Accurate flow rate control of a ultra-low-speed continuous-flow micropump driven by self-propelled droplet
      Apr. 2022 — Mar. 2024
      Grant from Fluid Power Technology Promotion Foundation
    3. Development of build-in micro pump driven by a chemo-mechanical conversion element and its application for bio-assay chips
      Apr. 2018 — Mar. 2021
      Grant-in-Aid for Scientific Research (C)
    4. Construction of neuron-mimetic network and study of its spatiotemporal dynamics
      Apr. 2015 — Mar. 2017
      Grant-in-Aid for Young Scientists (B)
    5. Development of disposable accelerometer intended for use in sports
      Apr. 2015 — Sep. 2016
      JKA promotion fund from KEIRIN RACE
    6. Development of microdevices for single-cell analysys
      Oct. 2014 — Oct. 2015
      Grant from the Foundation Hattori Hokokai
    7. Study of compartment size dependency of protein synthesis using cell-free translation system
      Apr. 2012 — Mar. 2014
      Grant-in-Aid for Young Scientists (B)
    8. Study of nonlinear dynamics in a network of active elements
      Apr. 2008 — Mar. 2010
      Grand-in-Aid for JSPS Fellows
    9. Resonance and synchronization phenomena in oscillator networks coupled in various manners
      Apr. 2008 — Mar. 2009
      Grant from Fukuoka University