Researchers

Education and Career

Education

• 1993/04 - 1998/03 , Keio University, Faculty of Science and Technology,
• 1998/04 - 2000/03 , The University of Tokyo, The Graduate School of Engineering,
• 2000/04 - 2003/03 , The University of Tokyo, The Graduate School of Engineering,

Academic & Professional Experience

• Apr. 2022 - Today , Kindai University Faculty of Engineering Professor
• Apr. 2020 - Mar. 2022 , Hiroshima University Graduate School of Advanced Science and Engineering Associate Professor
• Apr. 2009 - Mar. 2020 , Hiroshima University Graduate School of Engineering Associate Professor
• Apr. 2007 - Mar. 2009 , Hiroshima University Graduate School of Engineering Assistant Professor
• Apr. 2004 - Mar. 2007 , Hiroshima University Graduate School of Engineering Research Associate
• Apr. 2002 - Mar. 2004 , Japan Society for the Promotion of Science 特別研究員

Research Activities

Research Areas

• Nanotechnology/Materials, Thin-film surfaces and interfaces

Published Papers

1. Carbon nanotube as catalyst support in supercritical water
   Mohammed Ahmed Mohammed Ali; Shuhei Inoue; Yukihiko Matsumura
   The Journal of Supercritical Fluids  190  , 105755-105755, Nov. 2022  , Refereed
2. A facile technique to develop conductive paper based bioelectrodes for microbial fuel cell applications
   Jayapiriya U S; Shuhei Inoue; Sanket Goel
   Biosensors and Bioelectronics  214  , 114479-114479, Oct. 2022  , Refereed
3. Difference in Gas-Sensing behavior of Multi-walled carbon Nanotube-Paper-Based gas sensor to polar and non-Polar organic solvents
   Mengli Zhang; Shuhei Inoue; Yukihiko Matsumura
   Chemical Physics Letters  798  , 139596-139596, Jul. 2022  , Refereed

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Books etc

1. 熱力学 , 松村幸彦; 遠藤琢磨; 笠原次郎; 野村信副; 田之上健一郎; 大澤克之; 小田哲也; 城崎知至; 坪井伸行; 板谷義紀; 井上修平 , 14，15章 , 14，15章 , 朝倉書店 , Sep. 2015
2. 身近なエネルギー利用のしくみ , 多幾山 憲, 須佐 秋生, 尾形 陽一, 松村 幸彦, 難波 愼一, 下栗 大右, 西田 恵哉, 井上 修平, 遠藤 暁, 静間 清 , 3.3, 5.2 , 3.3, 5.2 , 広島大学出版会 , Mar. 2012
3. Carbon Nanotubes [Hardcover] [Jan 01, 2014] , Marulanda J. M. , 16章 , 16章 , Mar. 2010

MISC

1. P-49 Investigation on direct sampling from hydrothermal conditions using capillary tube , KUROKI Mutsumi; INOUE Shuhei; AKI Tsunehiro; OKAMURA Yoshiko; NAKASHIMADA Yutaka; TAJIMA Takahisa; MATSUMURA Yukihiko , Proceedings of the Conference on Biomass Science , 13 , 0 , 143 , 144 , 2018
   Summary:<p>We developed an in situ mass spectrometry (in situ MS) analysis method using capillary tube for the first time. The in situ MS analysis was performed by coupling a tubular batch reactor with a quadrupole mass analyzer via custom-built connection fittings. The products of glucose decomposition were investigated by in situ MS. We conducted experiment at 120°C and reaction time is 5, 10, 20 minutes. Pressure reduction was successfully made, and MS analysis was conducted. By making the capillary longer, in situ MS should be applied to reactions under pressure higher than that employed in this study.</p>
2. P-27 Quantitative In Situ Mass Spectrometry analysis for Reaction Kinetic of Glucose Decomposition under Hydrothermal Condition , DUANGKAEW Pattasuda; INOUE Shuhei; AKI Tsunehiro; NAKASHIMADA Yutaka; OKAMURA Yoshiko; TAJIMA Takahisa; MATSUMURA Yukihiko , Proceedings of the Conference on Biomass Science , 12 , 0 , 103 , 104 , 2017
   Summary:<p>In this research, hydrothermal treatment of glucose was conducted at temperatures ranged from 140 °C to 220 °C, with reaction times between 2.5 min and 20 min. Liquid products obtained after the hydrothermal process were quantitatively analyzed by the mass spectroscopic method and high performance liquid chromatography (HPLC) analyzer. The in situ MS analysis revealed that decomposition rate of glucose was enhanced at the higher temperature. The results showed that the presence of 5-hydroxymethylfurfural (5-HMF) and other low-molecular-weight of acids, whose concentration increased when the temperature increased to 180 and 220 °C. The reaction pathway of glucose decomposition was purposed follow products obtained by in situ MS analysis and HPLC and the kinetic parameters for the pathway of glucose under hydrothermal conditions have been achieved by assuming first-order reactions.</p>
3. P-20 Behavior of Uronic Acid during Hydrothermal Pretreatment of Kelp , ITO Hiroshi; INOUE Shuhei; AKI Tsunehiro; NAKASHIMADA Yutaka; OKAMURA Yoshiko; TAJIMA Takahisa; MATSUMURA Yukihiko , Proceedings of the Conference on Biomass Science , 11 , 0 , 89 , 90 , 2016
   Summary:Recently, using the renewable energy is important. The marine biomass is one of the renewable energy. Kelp is a type of brown algae included in marine biomass, natural crop yields in japan account for more than 70 %. In this research, kelp was treated by continuous flow reactor under hydrothermal condition. The experimental condition, temperature is 170 ℃, the operating pressure is 5 MPa, and residence time is between 2, 5, and 15 min. Finally, mannitol and guluronic acid (GA) was obtained. Recovery of GA was decreased in accordance with the residence time became longer, but at 15 min, the amount of GA decreased.

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Research Grants & Projects

1. 日本学術振興会, 科学研究費助成事業, 超薄膜ウェアラブルガスセンサーの開発－安心安全の見える化と夢の技術：分子の特定－ , 近畿大学
2. Japan Society for the Promotion of Science, Grants-in-Aid for Scientific Research Grant-in-Aid for Challenging Research (Pioneering), n/a , Hiroshima University
3. JSPS, KAKENHI(Grant-in-Aid for Scientific Research (B)), n/a

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