Rchr
J-GLOBAL ID:200901010977243584
Update date: Feb. 21, 2024
Watanabe Satoshi
ワタナベ サトシ | Watanabe Satoshi
Affiliation and department:
Job title:
Associate Professor
Research field (1):
Transfer phenomena and unit operations
Research keywords (6):
自己組織化
, 規則配列構造
, ナノサイズ粒子
, order formation
, nanosize particle
, Self-organization
Research theme for competitive and other funds (18):
- 2022 - 2026 ソフト多孔性錯体が示すゲート吸着挙動の速度論の体系化
- 2021 - 2024 Kinetic modelling of the gate adsorption of soft porous crystals based on in-situ stress measurements
- 2020 - 2024 Development of shape control technology of liquid droplet based on liquid marble engineering
- 2021 - 2023 ゲート型吸着剤の特異な挙動に着目した吸着分離工学の革新
- 2020 - 2023 強混合場の活用による核生成現象解析に立脚したナノ粒子合成の計算科学的学理の構築
- 2019 - 2022 Self-Assembly of Soft MOF Particles into Hierarchical Porous Structures
- 2017 - 2020 Synergetic Structural Transition Phenomena in Metal-Organic Framework with Hybrid Crystal Structures
- 2016 - 2019 Novel Self-Assembly Process Using Nanofluid as Quasi Convective Medium
- 2014 - 2017 Synthesis of Metal-Organic Framework Particles with Controlled Size, Shape, and Adsorption Characteristics
- 2011 - 2014 Controlled Fabrication and Application of Patterned Structures of Colloidal Nanoparticles through Convective Self-Assembly
- 2011 - 2013 Continuous Synthesis of Core-Shell Particles via Precise Control of Nucleation and Growth Processes Using Multiple Flow Reactors
- 2009 - 2011 Understanding Mechanism of Adsorption-Induced Structure Transition of Metal Organic Frameworks and its Application for Design of New Soft Nanospaces
- 2008 - 2009 Spontaneous Pattern Formation of Colloidal Particles by Evaporation-Induced Self Assembly
- 2008 - 2009 秩序流れ場を活用した異相核生成過程解析とナノ粒径制御への展開
- 2006 - 2008 Controlled Growth of 3D Colloidal Crystal in a Slit Space with DC Electric Field
- 2006 - 2007 コロイドナノ粒子の基板上吸着による自己組織化構造制御とブラウン動力学
- メゾスケール粒子の自律的規則構造形成手法の開発とそのモデル化
- Self-organization of nanoparticles into a variety of ordered structures
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Papers (107):
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Yuya Iida, Shotaro Hiraide, Minoru T. Miyahara, Satoshi Watanabe. Solute interaction-driven and solvent interaction-driven liquid-liquid phase separation induced by molecular size difference. The Journal of Chemical Physics. 2024. 160. 4
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Shotaro Hiraide, Yu Katayama, Akira Endo, Ryotaro Matsuda, Minoru T. Miyahara, Satoshi Watanabe. Simulation studies of water adsorption on MIL-101(Cr) revealing the role of inhomogeneous potential field composed of open metal sites and organic linkers. RSC Applied Interfaces. 2024
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Yuta Sakanaka, Shotaro Hiraide, Iori Sugawara, Hajime Uematsu, Shogo Kawaguchi, Minoru T. Miyahara, Satoshi Watanabe. Generalised analytical method unravels framework-dependent kinetics of adsorption-induced structural transition in flexible metal-organic frameworks. Nature Communications. 2023. 14. 1
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Shotaro Hiraide, Kohei Yamamoto, Hideki Tanaka, Kazuyuki Nakai, Satoshi Watanabe, Minoru T. Miyahara. GCMC kernel for analyzing the pore size distribution of porous carbons based on a simplified slit-pore model considering surface energetic heterogeneity. Adsorption. 2023. 29. 7-8. 387-399
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Ryotaro Saitoh, Shotaro Hiraide, Minoru T. Miyahara, Satoshi Watanabe. ソフト多孔性錯体の賦形に伴うゲート吸着の緩慢化とその改善に向けたコアシェル状ペレットの開発. Journal of the Society of Powder Technology, Japan. 2023. 60. 10. 594-599
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MISC (8):
Patents (1):
Books (3):
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分散・塗布・乾燥の基礎と応用 プロセスの理解からものづくりの革新へ(第3章第7節2-3の執筆担当)
テクノシステム 2014
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マイクロリアクター技術の最前線(第2章12の執筆担当)
シーエムシー出版 2012
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新機能微粒子材料の開発とプロセス技術(第5章1の執筆担当)
技術情報協会 2006
Lectures and oral presentations (12):
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Flow Synthesis of Core-Shell and Porous Materials via a Microreactor
(11th Japan-Korea Symposium on Materials and Interfaces 2014)
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Flow Microreactor Synthesis of Core-Shell Nanoparticles and Porous Materials
(CBI-Kolloquium Erlangen Univeristy 2014)
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マイクロリアクタを用いたシリカ - 金コアシェル型微粒子の流通式合成
(岡山マイクロリアクターネット第18回例会 2013)
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貴金属ナノ粒子導電ネットワーク構造の形成と周期性制御
(未来のコロイドおよび界面化学を創る若手討論会 2013)
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コロイド移流集積現象を利用した周期構造堆積膜の形成と構造制御
(化学工学会第78年会 若手・中堅研究者懇親・講演会 2013)
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Education (6):
Professional career (1):
- Dr. Eng. (Kyoto University)
Association Membership(s) (3):
コロイドおよび界面化学部会
, 粉体工学会
, 化学工学会
