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Researcher Information

last modified:2024/11/05

Professor Hirohisa Uchida

Mail

Faculty, Affiliation

Faculty of Frontier Engineering,Institute of Science and Engineering

College and School Educational Field

Division of Frontier Engineering, Graduate School of Natural Science and Technology
Division of Natural Sciences, Graduate School of Natural Science and Technology
Division of Natural System, Graduate School of Natural Science and Technology
School of Frontier Engineering, College of Science and Engineering

Laboratory

Chemical Process Engineering Laboratory TEL:076-234-4820 FAX:076-234-4820

Academic Background

【Academic background(Doctoral/Master's Degree)】
Kyushu University Doctor Graduate School of Engineering Department of Chemical Engineering 199803 Completed
Kyushu University Master Graduate School of Engineering Department of Chemical Engineering 199503 Completed
【Academic background(Bachelor's Degree)】
Kyushu University Department of Chemical Engineering 199303
【Degree】
Ph.D.

Career

Kanazawa University Institute of Science and Engineering Professor(2016/10/01-)
Shinshu University Department of Engineering Specially Appointed Professor(2016/10/01-2017/09/30)
The University of Tokyo The Graduate School of Engineering(2011/05/01-2014/03/31)
BEANS Laboratory, Senior Researcher(2010/04/01-2011/03/31)
Shinshu University Department of Engineering Associate Professor(2005/04/01-2016/09/30)
Osaka Prefecture University Graduate School of Engineering Lecturer(2004/04/01-2005/03/31)
Georgia Institute of Technology(2001/07/01-2001/12/31)
Tokyo University of Agriculture and Technology Department of Engineering Assistant Professor(1999/02/01-2004/03/31)
Research Institute for Solvothermal Technology Researcher(1998/04/01-1999/01/31)

Year & Month of Birth

1969/06

Academic Society








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Specialities

Properties in chemical engineering process/Transfer operation/Unit operation

Speciality Keywords

Chemical Engineering, Supercritical Fluid Engineering, Crystallization, Chemical Engineering Thermodynamics, Organic Semiconductors, Molecular Simulation, Machine Learning, Functional Devices

Research Themes

Books

  •  超臨界流体部会 活動成果集2008(ワーキンググループ活動報告書No.6) (社)化学工学会超臨界流体部会 2009
  •  超臨界CO2の基礎とその応用技術徹底解説 電子ジャーナル 2013
  •  超臨界流体高度利用特別研究会 ワーキンググループ活動成果報告書No.3 (社)化学工学会 1999
  •  Supercritical Fluids -Molecular Interactions, Physical Properties, and New Applications- Springer Verlag 2002
  •  躍進する超臨界流体技術-新しいプロセスの原理とその実用化- コロナ社 2014

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  •  ナノテクノロジー大事典 工業調査会 2003
  •  超臨界流体とナノテクノロジー シーエムシー出版 2004
  •  超臨界流体部会 活動成果集2006(ワーキンググループ活動報告書No.5) (社)化学工学会超臨界流体部会 2007
  •  図解 ナノテクノロジーのすべて 工業調査会 2001
  •  超臨界流体技術の開発と応用 シーエムシー出版 2008
  •  二酸化炭素の有効利用技術 サイエンス&テクノロジー 2010
  •  二酸化炭素の直接利用最新技術 エヌ・ティー・エス 2013
  •  超臨界流体とナノテクノロジー開発 シーエムシー出版 2010
  •  論文投稿の手引き-化学工学論文集・Journal of Chemical Engineering of Japan- (社)化学工学会 2003

Papers

  •  Applications of Supercritical Crystallization Techniques to Pharmaceutical Materials Processing YAMANOBE Maiko,UCHIDA Hirohisa,MATSUOKA Masakuni The Review of High Pressure Science and Technology 12 4 331 2002/11/20 
  •  Diffusion coefficients of aromatic compounds in supercritical carbon dioxide using molecular dynamics simulation Higashi Hidenori,Iwai Yoshio,Uchida Hirohisa,Arai Yasuhiko Journal of Supercritical Fluids 13 1 93 1998/06/15 
  •  Solubilities of High-Boiling Components in Supercritical Fluid IWAI Yoshio,UCHIDA Hirohisa The Review of High Pressure Science and Technology 5 2 71 1996/05/20 
  •  Solvent Characteristics of Supercritical Fluids UCHIDA Hirohisa,ARAI Yasuhiko Japan journal of thermophysical properties 13 1 23 1999/01/31 
  •  Solubility Characteristics of Aromatic Compound Isomers in Supercritical Carbon Dioxide and Their Application to an Advanced Separation UCHIDA Hirohisa The Review of High Pressure Science and Technology 11 2 137 2001/05/20 

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  •  Particulate Design of Drugs by Rapid Expansion of Supercritical Solutions Using Supercritical Carbon Dioxide UCHIDA Hirohisa Journal of the Society of Powder Technology, Japan 48 9 91 2010/10/20 
  •  Measurement and correlation of the solid-liquid-gas equilibria for carbon dioxide plus normal chain saturated aliphatic hydrocarbon systems Hirohisa Uchida,Tetsuo Kamijo JOURNAL OF SUPERCRITICAL FLUIDS 51 2 136 2009/12
  •  超臨界二酸化炭素利用技術の現状 内田博久 工業材料 60 3 27 2012/03 
  •  超臨界二酸化炭素+固体溶質系の物性の計算法 内田博久 分離技術 41 3 149 2011 
  •  Novel Supercritical Fluid Deposition Technique of SiO2 using Flow Channel Reactor T. Momose,A. Kondo,H. Yamada,J. Ohara,Y. Kitamura,H. Uchida,Y. Shimogaki,M. Sugiyama Proc. 10th International Symposium on Supercritical Fluids 1 L-225 2012
  •  On Receiving the JSTP Award for Younger Researchers UCHIDA H. 20 1 7 2006/02/28
  •  Crystal Growth Mechanism of Anthracene Thin Films Produced by Rapid Expansion of Supercritical Solutions (RESS) Technique using Supercritical Carbon Dioxide T. Fujii,H. Uchida,M. Sugiyama Proc. 10th International Symposium on Supercritical Fluids 1 P-1412 2012
  •  Measurement and Correlation of the Solid-Liquid-Gas Equilibria for Carbon Dioxide plus Octadecanoic Acid (Stearic Acid) and Carbon Dioxide+1-Octadecanol (Stearyl Alcohol) Systems Hirohisa Uchida,Tetsuo Kamijo JOURNAL OF CHEMICAL AND ENGINEERING DATA 55 2 925 2010/02
  •  Development of Production and Design Technique of Theophylline Nanoparticles by the Rapid Expansion of Supercritical Solutions (RESS) Using Supercritical Carbon Dioxide 48 42 2010/10/20 
  •  Current Trends in Supercritical Carbon Dioxide Technologies UCHIDA Hirohisa Journal of the Japan Institute of Energy 91 4 292 2012/04/20 
  •  Strategies for Nanoparticle Design of Racemic Ibuprofen by Rapid Expansion of Supercritical Solutions (RESS) Technique Using Supercritical Carbon Dioxide H. Uchida,J. Sakabe,K. Demoto,R. Nakazawa,D. Kondo,A. Kataoka,T. Kokubun,M. Ito,N. Sugimoto Proc. 10th International Symposium on Supercritical Fluids 1 L-333 2012
  •  Production of Nanoparticles of Theophylline using Rapid Expansion of Supercritical Solutions (RESS) Technique J. Sakabe,K. Demoto,A. Kataoka,T. Kokubun,M. Ito,N. Sugimoto,H. Uchida Proc. 10th International Symposium on Supercritical Fluids 1 P-1505 2012
  •  Fundamentals and Applications of Supercritical Fluids Technology : Current Status and Future Development of Supercritical Fluids Technology UCHIDA Hirohisa 32 45 2007/03/09
  •  Modeling of drug solubility in supercritical carbon dioxide using equation of state based on hole theory with molecular surface charge density Junichi Sakabe,Hirohisa Uchida,Yusuke Shimoyama CHEMICAL ENGINEERING RESEARCH & DESIGN 92 12 2970 2014/12
  •  Deposition of tetracene thin films on SiO2/Si substrates by rapid expansion of supercritical solutions using carbon dioxide Tatsuya Fujii,Yuta Takahashi,Hirohisa Uchida APPLIED PHYSICS EXPRESS 8 3 035504 2015/03
  •  Crystal Growth of Anthracene Thin Films on Silicon by Rapid Expansion of Supercritical Solutions (RESS) Using Carbon Dioxide Tatsuya Fujii,Hirohisa Uchida JOURNAL OF CHEMICAL ENGINEERING OF JAPAN 48 9 787 2015/09
  •  Crystal Growth of Anthracene Thin Films on Silicon by Rapid Expansion of Supercritical Solutions (RESS) Using Carbon Dioxide Tatsuya Fujii,Hirohisa Uchida JOURNAL OF CHEMICAL ENGINEERING OF JAPAN 48 9 787 2015/09
  •  Mixed solid phase model using equation of state based on hole-theory for solubility prediction of pharmaceutical compound in supercritical CO2 Junichi Sakabe,Hirohisa Uchida,Yusuke Shimoyama JOURNAL OF SUPERCRITICAL FLUIDS 100 26 2015/05
  •  Effects of Solution Concentrations on Crystal Growth of Anthracene Thin Films on Silicon by Rapid Expansion of Supercritical Solutions (RESS) Using Carbon Dioxide Tatsuya Fujii,Yuta Takahashi,Hirohisa Uchida JOURNAL OF CHEMICAL ENGINEERING OF JAPAN 48 9 795 2015/09
  •  Guide to Learning Chemical Engineering 79 1 45 2015/01 
  •  Solubility of bis-(2,2,6,6-tetramethyl-3,5-heptanedionato)copper(II) in mixed supercritical CO2 and H-2 systems for application in supercritical fluid deposition of Cu Takeshi Momose,Aiko Kondo,Tatsuya Kamiya,Hideo Yamada,Junji Ohara,Yasuhiro Kitamura,Hirohisa Uchida,Yukihiro Shimogaki,Masakazu Sugiyama JOURNAL OF SUPERCRITICAL FLUIDS 105 193 2015/10
  •  Production of theophylline nanoparticles using rapid expansion of supercritical solutions with a solid cosolvent (RESS-SC) technique Hirohisa Uchida,Masamichi Nishijima,Kyohei Sano,Kohei Demoto,Junichi Sakabe,Yusuke Shimoyama JOURNAL OF SUPERCRITICAL FLUIDS 105 128 2015/10
  •  超臨界二酸化炭素を利用した晶析技術による機能性材料創製 内田博久,渡邊航平 化学工学 79 12 100 2015
  •  Challenge to Energy Storage : Current Status and Future Prospects of Electric Energy Storage Technology UCHIDA H. 77 1 2 2013/01/05

Conference Presentations

  • 分光学的手法を用いた超臨界二酸化炭素に対する有機半導体材料の溶解度測定法の開発(2012)
  • 紫外可視分光法を用いた超臨界二酸化炭素に対する有機物の溶解度測定技術(2012)
  • 基板加熱型超臨界製膜装置における自然対流シミュレーション(2011)
  • 超臨界溶体急速膨張法による有機デバイス用ルブレン薄膜の創製(2012)
  • 超臨界溶体急速膨張(RESS)法を用いた有機半導体薄膜の創製技術(2011)

show all

  • Novel Organic Crystal Thin Film Growth Technique Using Supercritical Fluid Capable of Filling on High-Aspect-Ratio Features(2011)
  • 超臨界溶体急速膨張法によるイブプロフェン微粒子創製に対する粒子回収部環境の影響(2011)
  • Production of Organic Thin Films Using Rapid Expansion of Supercritical Solutions (RESS) Technique(2011)
  • 超臨界流体を用いたSiO2製膜における流れパターンの影響評価(2011)
  • 超臨界溶体急速膨張法によるテオフィリンの微粒子創製と粒子設計技術の開発(2011)
  • 基板加熱型超臨界製膜装置の数値流体シミュレーション(III)(2011)
  • マイクロデバイスを用いた超臨界貧溶媒添加(SAS)法による薬物の微粒子創製技術(2011)
  • 超臨界溶体急速膨張(RESS)法による薬物のナノ粒子創製および粒子設計技術の開発(2011)
  • 超臨界溶体急速膨張法によるテオフィリン粒子創製に対する噴出流体温度の影響(2011)
  • テオフィリン微粒子創製に対する超臨界溶体急速膨張法の膨張ノズル温度効果(2011)
  • 超臨界溶体急速膨張法による有機半導体用薄膜の創製技術と結晶成長現象(2011)
  • 超臨界溶体急速膨張法によるアントラセン薄膜創製に対する薄膜形成部条件の影響(2011)
  • 薬物の製剤技術に有用な超臨界二酸化炭素+薬物系の平衡物性と非平衡物性(2011)
  • 超臨界溶体急速膨張法によるテオフィリンのナノ粒子創製における固体共溶媒添加の影響(2012)
  • 超臨界溶体急速膨張法によるテオフィリン微粒子創製における結晶成長機構(2011)
  • テオフィリン微粒子創製に対する超臨界溶体急速膨張法の膨張ノズル温度の影響(2011)
  • 超臨界溶体急速膨張(RESS)法による薬物のナノ粒子創製と粒子設計技術の開発(2011)
  • 貧溶媒添加晶析によるイブプロフェンの粒子創製に対する操作因子の影響(2011)
  • フローチャネル型製膜装置によるSiO2-SCFD(2012)
  • 微小空間での超臨界貧溶媒添加法によるテオフィリン粒子創製に対する晶析器体積の影響(2012)
  • 超臨界溶体急速膨張法によるテオフィリンの微粒子創製に対する固体共溶媒添加の影響(2012)
  • 超臨界流体を用いた超高アスペクト比3次元構造へのCu膜均一形成(2012)
  • 超臨界溶体急速膨張(RESS)法によるイブプロフェン粒子創製における結晶形態変化(2012)
  • 超臨界二酸化炭素を用いた溶体急速膨張法による有機物の粒子創製における結晶多形現象(2012)
  • 超臨界溶体急速膨張(RESS)法を用いた有機半導体薄膜の創製技術(2011)
  • マイクロデバイスを用いた超臨界貧溶媒添加(SAS)法による薬物の微粒子創製技術(2011)

Others

Arts and Fieldwork

Patent

Theme to the desired joint research

Grant-in-Aid for Scientific Research

○「CO2を利用した超臨界溶体急速膨張法による有機製膜の機構解明と汎用化技術への展開」(2021-2023) 
○「超臨界CO2を用いたナノダイヤモンド表面修飾における化工物性と機能性設計への展開」(2019-2021) 
○「超臨界二酸化炭素を用いた噴霧晶析法による高性能有機薄膜創製と薄膜自由設計への展開」(2017-2019) 
○「超臨界二酸化炭素中の医薬品有機化合物の結晶多形転移現象のメカニズム解明とその制御」(2015-2016) 
○「超臨界溶体急速膨張法による薬物の粒子設計技術の実用化に向けた基盤研究の展開」(2010-2012) 
○「超臨界溶体急速膨張法を利用した医薬用有機ナノ粒子設計技術の実用化基盤の構築」(2007-2009) 
○「超臨界急速膨張法を利用した医薬用有機ナノ微粒子創製技術の開発」(2005-2006) 
○「水を反応場に用いる有機資源循環科学・工学」(2004-2004) 
○「超臨界晶析による芳香族化合物異性体の分離手法の開発」(2000-2001) 
○「複合結晶の生成機構と新機能材料開発への応用」(2000-2001) 
○「溶液中で成長している結晶近傍での異物質結晶の核化に起因した複合結晶の生成機構」(1999-1999) 
○「異性化反応-優先晶析同時プロセスによる高収率光学分割操作の開発」(1998-1999) 

Competitive research funding,Contribution

Collaborative research,Consignment study

Classes (Bachelors)

○Practical Exercise of Material Process(2022)
○Crystallization Engineering A(2022)
○Crystallization Engineering B(2022)
○Process Control A(2022)
○Experiments in Material Process(2022)
○Chemical Reacting Kinetics A(2022)
○Chemical Reacting Kinetics B(2022)
○Material Simulation A(2022)
○Material Simulation B(2022)
○Sensor Engineering A(2022)

Classes (Graduate Schools)

○Research work in Chemical Engineering(2019)
○Research work in Chemical Engineering(2018)
○Basic Chemical Engineering A(2017)
○Basic Chemical Engineering B(2017)
○Applied Thermodynamics B(2017)
○Applied Thermodynamics B(2016)

International Project

International Students

Lecture themes

Others (Social Activities)

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