研究者
J-GLOBAL ID:201801004949940199
更新日: 2024年12月16日 茂木 克雄
モギ カツオ | MOGI Katsuo
- Katsuo Mogi, Hiroyuki Kimura, Naoki Takada. Microfluidic technology for making string-like cell tissues. 2022 IEEE CPMT Symposium Japan (ICSJ). 2022
- Takada, Naoki, Mogi, Katsuo, Takaki, Tomohiro, Someya, Satoshi, Baba, Soumei, Saito, Shimpei. Microfluidic simulations of droplet motion on structured solid surface using phase-field lattice Boltzmann method. Multiphase Science and Technology. 2022. 34. 3. 17-33
- Katsuo Mogi, Hiroyuki Kimura, Yuto Kondo, Tomoya Inoue, Shungo Adachi, Tohru Natsume. Automatic radioisotope manipulation for small amount of nuclear medicine using an EWOD device with a dimple structure. Royal Society open science. 2021. 8. 5. 201809-201809
- Hirotada Hirama, Ryutaro Otahara, Katsuo Mogi, Masanori Hayase, Toru Torii, Harutaka Mekaru. Rapid Prototyping of a Nanoparticle Concentrator Using a Hydrogel Molding Method. Polymers. 2021. 13. 7
- Reiko Yasuda, Shungo Adachi, Atsuhito Okonogi, Yohei Anzai, Tadataka Kamiyama, Keiji Katano, Nobuhiko Hoshi, Katsuo Mogi, Tohru Natsume. Cell stress reduction by a novel perfusion-culture system using commercial culture dish. Applied Sciences (Switzerland). 2020. 10. 1
- Katsuo Mogi, Shungo Adachi, Naoki Takada, Tomoya Inoue, Tohru Natsume. Electrowetting on dielectric (EWOD) device with dimple structures for highly accurate droplet manipulation. Applied Sciences (Switzerland). 2019. 9. 12. 2406
- Reiko Yasuda, Shungo Adachi, Atsuhito Okonogi, Youhei Anzai, Tadataka Kamiyama, Keiji Katano, Nobuhiko Hoshi, Tohru Natsume, Katsuo Mogi. Fabrication of a novel culture dish adapter with a small recess structure for flow control in a closed environment. Applied Sciences (Switzerland). 2019. 9. 2
- Katsuo Mogi. A visualization technique of a unique pH distribution around an ion depletion zone in a microchannel by using a dual-excitation ratiometric method. Micromachines. 2018. 9. 4
- Katsuo Mogi, Kei Hayashida, Takatoki Yamamoto. Damage-less handling of exosomes using an ion-depletion zone in a microchannel. Analytical Sciences. 2018. 34. 8. 875-880
- Katsuo Mogi, Kei Hayashida, Ayae Honda, Takatoki Yamamoto. Development of Virus Concentration Device by Controlling Ion Depletion Zone for Ultrasensitive Virus Sensing. Electronics and Communications in Japan. 2017. 100. 9. 56-63
- Yuki Hashimoto, Katsuo Mogi, Takatoki Yamamoto. Vacuum ultraviolet light assisted bonding and nanoscale pattern transfer method for polydimethylsiloxane. Microelectronic Engineering. 2017. 176. 116-120
- 坂田 健士郎, 楊 路, 茂木 克雄, 山本 貴富喜. 親疎水性界面と多孔質膜を利用したリキッドゲートによる連続的サンプリング機構の初期評価. 電気学会論文誌. E, センサ・マイクロマシン部門誌. 2017. 137. 6. 169-173
- Katsuo Mogi, Kenshiro Sakata, Yuki Hashimoto, Takatoki Yamamoto. A novel fabrication technique for liquid-tight microchannels by combination of a paraffin polymer and a photo-curable silicone elastomer. Materials. 2016. 9. 8. 1-8
- K. Mogi, C. Shirataki, K. Kihara, H. Kuwahara, Y. Hongoh, T. Yamamoto. Trapping and isolation of single prokaryotic cells in a micro-chamber array using dielectrophoresis. RSC Advances. 2016. 6. 114. 113000-113006
- 茂木 克雄, 林田 佳, 本田 文江, 山本 貴富喜. 超高感度センシングに向けたイオン枯渇領域の制御によるウイルス濃縮デバイスの開発. 電気学会論文誌. E, センサ・マイクロマシン部門誌. 2016. 136. 9. 363-369
- 橋本 優生, 茂木 克雄, 山本 貴富喜. 真空紫外光によるシリコーンのガラス化を利用したガラス製モスアイ構造の作製法. 電気学会論文誌. E, センサ・マイクロマシン部門誌. 2016. 136. 11. 488-492
- 茂木 克雄, 兼高 紀香, 杉井 康彦, 菱田 公一. 超解像度LIF法を用いた血管内皮細胞表面近傍の物質濃度分布計測. 日本機械学会論文集. 2016. 82. 833. 15-00404-15-00404
- Yuki Hashimoto, Katsuo Mogi, Takatoki Yamamoto. Nanoscale three-dimensional optical visualization method for a deformation of elastomer printing plate to realize soft nano-printing technology. Surface and Interface Analysis. 2015. 47. 6. 723-727
- Katsuo Mogi, Yuki Hashimoto, Takeshi Tsukahara, Motoki Terano, Masahiko Yoshino, Takatoki Yamamoto. Nanometer-level high-accuracy molding using a photo-curable silicone elastomer by suppressing thermal shrinkage. RSC Advances. 2015. 5. 14. 10172-10177
- Yuki Hashimoto, Katsuo Mogi, Takatoki Yamamoto. Fabrication method of moth-eye using UV-curable polydimethylsiloxane with vitrification by vacuum ultraviolet light. IEEE-NANO 2015 - 15th International Conference on Nanotechnology. 2015. 128-131
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