Rchr

J-GLOBAL ID：200901076458111450 Update date: Sep. 22, 2024

Matsuyama Kiyoshi

マツヤマキヨシ | Matsuyama Kiyoshi

Affiliation and department：
Homepage URL (1)： https://www.fit.ac.jp/~matsuyama/

Research field (2)： Chemical reaction and process system engineering , Transfer phenomena and unit operations

Research keywords (33)：二酸化炭素 , 超臨界二酸化炭素 , 酵素 , 界面活性剤 , マイクロカプセル , 高分子 , ナノ粒子 , 生体分子 , 気 , ナノバイオ , 液 , 固 , 表面改質 , ナノ材料 , 超臨界流体反応操作 , 自己組織化 , 薬剤 , 重合反応 , 亜臨界流体 , 生体認識 , 酸素反応 , バイオイメージング , ナノ分子集合体 , 超音波 , 微細構造 , 複合材料 , 構造・機能材料 , 分子イメージング , 相分離 , 微粒子 , 超臨界流体 , 化学工学物性 , Chemical Engineering

Research theme for competitive and other funds (25)：

2024 - 2027 Fabrication of metal alloy nanoparticle catalysts from nano-interface distortion of porous metal complexes by supercritical activation
2021 - 2024 Physical properties in the bulk and nano spaces for preparing metal-supported porous coordination polymers using supercritical fluid deposition method
2021 - 2023 Challenge to Plant Drug Delivery System
2020 - 2023 Development of innovative metal nanocluster using porous coordination polymer as reaction field and supercritical fluid activation
2017 - 2020 Regeneration of insulin producing cells from Human deciduous dental pulp cell derived iPS cells

2016 - 2019 Development of porous coordination polymer-nanoparticle composite using supercritical fluid

2017 - 2017 構造制御されたナノ細孔中での元素間融合による人工ロジウムの合成

2014 - 2017 Development of xeno-free human feeder cell with multi-function derived from the dental pulp cell

2013 - 2017 The tooth-format cellular differentiating regulation from iPSCs

2013 - 2016 Development of modification method of porous coordination polymer membrane using supercritical fluid

2016 - 2016 モノリス細孔を利用した元素間融合によるロジウムを用いない排ガス浄化触媒の開発

2015 - 2016 超臨界流体法による多孔性配位高分子材料の実用化技術の開発

2012 - 2015 創造工学実験等での成果を特許に結びつける試みに関する研究

2013 - 2013 超臨界流体を用いた多孔性配位高分子の活性化技術の開発と分子認識膜への応用

2011 - 2012 Formation of Polymer Grafted Nanoparticles in Supercritical CO2

2009 - 2010 Synthesis and Structure Control of Surface Modified Nanoparticles by Subcritical CO_2-Expanded Solutions

2007 - 2008 Surface Modification of Nanoparticles for Bio?imaging Using Pressure?induced Phase Separation of Supercritical Fluids

2006 - 2006 超臨界流体中での圧力誘起相分離法によるマイクロ・ナノ粒子の表面改質と完全分散

2005 - 2006 超臨界二酸化炭素中におけるナノ分子集合体の創製と生体認識型薬剤送達システムの開発

2005 - 2005 超臨界二酸化炭素中での自己組織化技術を利用したナノ複合粒子の開発

2004 - 2005 Development of Nanodevice for Nucleic Acid Drugs Utilizing Self-Assembly of Polymer in Supercritical Fluids

2002 - 2003 Development of DNA Amplification Technique by Enzymatic Reaction in Supercritical Fluid

2001 - 2002 超臨界二酸化炭素中での酵素の特異反応を用いた機能性高分子材料の開発

2000 - 2001 Development and application of enzyme complex catalyzed in super-critical fluid.

1998 - 1999 Development Thermodynamic Model for Enzymatic Reaction in Supercritical COィイD22ィエD2

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Papers (85)：

Kiyoshi Matsuyama, Takumi Matsuoka, Masashi Eiro, Takafumi Kato, Tetsuya Okuyama. PdRu Bimetallic Nanoparticles/Metal-Organic Framework Composite through Supercritical CO2-Assisted Immobilization. ACS Omega. 2024. 9. 18. 20437-20443
Kiyoshi Matsuyama, Yuka Kawahara, Ayano Shoji, Takafumi Kato, Tetsuya Okuyama. Supercritical CO₂-assisted formation of metal-organic framework-loaded porous polystyrene membranes for dye removal. Journal of Applied Polymer Science. 2023. 140. 35. e54347
Yosuke Ashikari, Kei Maekawa, Masahiro Takumi, Noriyuki Tomiyasu, Chiemi Fujita, Kiyoshi Matsuyama, Riichi Miyamoto, Hongzhi Bai, Aiichiro Nagaki. Flow grams-per-hour production enabled by hierarchical bimodal porous silica gel supported palladium column reactor having low pressure drop. Catalysis Today. 2022. 388. 231-236
Mayuka Morimoto, Takafumi Nakano, Saki Egashira, Keiichi Irie, Kiyoshi Matsuyama, Momoka Wada, Yoshihiko Nakamura, Yutaka Shigemori, Hiroyasu Ishikura, Yuta Yamashita, et al. Haptoglobin Regulates Macrophage/Microglia-Induced Inflammation and Prevents Ischemic Brain Damage Via Binding to HMGB1. JOURNAL OF THE AMERICAN HEART ASSOCIATION. 2022. 11. 6
Yosuke Ashikari, Kei Maekawa, Mai Ishibashi, Chiemi Fujita, Kiyonari Shiosaki, Hongzhi Bai, Kiyoshi Matsuyama, Aiichiro Nagaki. Stille, Heck, and Sonogashira coupling and hydrogenation catalyzed by porous-silica-gel- supported palladium in batch and flow. GREEN PROCESSING AND SYNTHESIS. 2021. 10. 1. 722-728

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MISC (74)：

松山清. Progress of Supercritical Fluid Technologies in Material Processing. 日本印刷学会誌. 2022. 59. 5
藤井明子, 山田強, 小川綾, 増田快音, 寺西航, 朴貴煥, 芦刈洋祐, 富安範行, 市川智大, 宮本利一, et al. 二階層構造シリカモノリス担持型パラジウム触媒による官能基選択的接触水素化反応. 日本病院薬剤師会東海ブロック・日本薬学会東海支部合同学術大会講演要旨集. 2020. 2020
松山清. Development of Highly Catalytically Active Bimetallic Nanoparticle Formation in Porous SiO₂ by Supercritical Fluid-assisted Immobilization. 福岡工業大学総合研究機構研究所所報. 2020. 3
T. Okuyama, A. Nakamura, K. Ohta, K. Matsuyama, H. Muto. ZnO nanoparticles with fluorescent properties suitable for modification on protein surfaces. 2019. 68. i42
Okuyama T, Yokoo T, Yamasaki Y, Matsuyama K, Muto H. Study on ZrO2 nanoparticles having fluorescence property synthesized by complexing agent. Microscopy. 2018. 67. i47

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Patents (21)：

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Books (7)：

PCP/MOFおよび各種多孔質材料の作り方,使い方,評価解析
技術情報協会 2019
Sustainable Nanoscale Engineering From Materials Design to Chemical Processing
Elsevier 2019
若手研究者の大きな可能性を秘めた研究開発
化学工学会九州支部若手ケミカルエンジニア連絡会 2009
超臨界流体とナノテクノロジー
シーエムシー出版 2004
食品の高機能粉末・カプセル化技術
サイエンスフォーラム 2003

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Lectures and oral presentations (150)：

超臨界含浸法により合成したバイメタルナノ粒子の触媒特性
(化学工学会年会研究発表講演要旨集(CD-ROM) 2022)
Development of a method for measuring solubility of small molecules in supercritical carbon dioxide by using SFE-SFC-FRC system
(質量分析総合討論会講演要旨集 2022)
PdRu Bimetallic Nanoparticle Catalysis Formation by Supercritical CO<sub>2</sub> -Assisted Immobilization into Metal-Organic Framework MIL-101(Cr)
(資源・素材(Web) 2022)
Catalytically Active PdNi Bimetallic Nanoparticles by Pyrolysis of Metal-Organic Framework Ni-MOF-74
(資源・素材(Web) 2022)
Supercritical CO<sub>2</sub>-Assisted Formation of Metal-Organic Framework Loaded Porous Polymer Membrane for Removal of Dye
(資源・素材(Web) 2022)

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Education (2)：

1994 - 1996 Fukuoka University Division of Engineering
1990 - 1994 Fukuoka University Faculty of Engineering

Professional career (1)：

博士(工学) (九州大学)

Work history (6)：

2022/04 - 現在 Fukuoka Institute of Technology
2019/04 - 2022/03 Fukuoka Institute of Technology Faculty of Engineering
2012/04 - 2019/03 National Institute of Technology, Kurume College Department of Biochemistry and Applied Chemistry
2004/04 - 2012/03 Fukuoka University Faculty of Engineering, Department of Chemical Engineering
1997/04 - 2004/03 Fukuoka University Faculty of Engineering, Department of Chemical Engineering

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Committee career (6)：

2019/06 - 現在資源・素材学会九州支部常議員
2017/08 - 現在 The Journal of Supercritical Fluids誌(Elsevier) Editorial Board
2017/07 - 2019/06 日本学術振興会特別研究員等審査会専門委員
2013/04 - 2019/03 化学工学会九州支部幹事
2012/04 - 2019/03 全国KOSEN多孔体・多孔質体研究ネットワーク幹事

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Awards (6)：

2021/10 - セラミック協会セラミック協会第34回秋季シンポジウム最優秀講演賞
2019/04 - 国立高等専門学校機構教員顕彰分野別優秀賞(教育・研究を通じた社会貢献分野)
2018/03 - 日本作物学会論文賞 Differential responses to high temperature during maturation in heat-stress-tolerant cultivars of Japonica rice
2016/01 - Best Poster Award
2015/08 - Journal of Supercritical Fluids誌(Elsevier) Editor-in-Chief’s Featured Article

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Association Membership(s) (6)：

日本高圧力学会 , 日本化学会 , 化学工学会 , Society of Chemical Engineering of Japan , THE MATERIALS RESEARCH SOCIETY OF JAPAN , 資源・素材学会

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