井上 修平Shuhei Inoue

Last Updated :2019/07/01

所属・職名
大学院工学研究科 エネルギー工学講座 准教授
メールアドレス
shu18hiroshima-u.ac.jp

基本情報

学歴

  • 東京大学, 工学系研究科, 機械工学専攻, 日本, 2000年04月, 2003年03月
  • 東京大学, 工学系研究科, 機械工学専攻, 日本, 1998年04月, 2000年03月
  • 慶應義塾大学, 理工学部, 機械工学科, 日本, 1993年04月, 1998年03月

学位

  • 博士(工学) (東京大学)
  • 修士(工学) (東京大学)

研究分野

  • 工学 / 機械工学 / 熱工学

研究キーワード

  • ナノ粒子
  • カーボンナノチューブ

教育活動

授業担当

  1. 2019年, 教養教育, 1ターム, 情報活用演習[1工一]
  2. 2019年, 教養教育, 2ターム, 社会の中における工学
  3. 2019年, 学部専門, 2ターム, 熱力学II
  4. 2019年, 学部専門, 4ターム, 熱力学II
  5. 2019年, 学部専門, 3ターム, 伝熱学II
  6. 2019年, 修士課程・博士課程前期, 3ターム, 熱工学特論
  7. 2019年, 博士課程・博士課程後期, 通年, 機械物理工学講究III
  8. 2019年, 修士課程・博士課程前期, セメスター(前期), 機械物理工学講究IA
  9. 2019年, 修士課程・博士課程前期, セメスター(後期), 機械物理工学講究IB
  10. 2019年, 修士課程・博士課程前期, セメスター(前期), 機械物理工学講究IB
  11. 2019年, 修士課程・博士課程前期, セメスター(前期), 機械物理工学講究IIA
  12. 2019年, 修士課程・博士課程前期, セメスター(後期), 機械物理工学講究IIB
  13. 2019年, 修士課程・博士課程前期, セメスター(前期), 機械物理工学セミナーIA
  14. 2019年, 修士課程・博士課程前期, セメスター(後期), 機械物理工学セミナーIB
  15. 2019年, 修士課程・博士課程前期, セメスター(前期), 機械物理工学セミナーIB
  16. 2019年, 修士課程・博士課程前期, セメスター(前期), 機械物理工学セミナーIIA
  17. 2019年, 修士課程・博士課程前期, セメスター(後期), 機械物理工学セミナーIIB

研究活動

学術論文(★は代表的な論文)

  1. FT-ICR Study of Chemical Reaction of Silicon Clusters, Thermal Science and Engineering, 7巻, 6号, pp. 69-74, 1999
  2. FT-ICR Studies of Laser Vaporized Clusters from Ni/Co and Ni/Y Loaded Graphite Samples, Physica B, 323巻, 1-4号, pp. 193-195, 2002
  3. FT-ICRによるシリコンクラスターと一酸化窒素の化学反応, 日本機械学会論文集(B編), 69巻, 684号, pp. 1879-1885, 2003
  4. 金属添加炭素試料からのクラスター生成と化学反応, 日本機械学会論文集(B編), 69巻, 684号, pp. 1886-1892, 2003
  5. FT-ICR Studies of Precursor Clusters of Single Wall Carbon Nanotubes (SWNTs), Microscale Thermophysical Engieering, 7巻, 1号, pp. 33-39, 2003
  6. 遷移金属クラスター (鉄,コバルト,ニッケル) とエタノールの反応とその傾向, 日本機械学会論文集(B編), 71巻, 707号, pp. 1915-1920, 2005
  7. FT-ICRによるシリコンクラスターイオン(Sin+, n=10-30)とエチレン分子の化学反応特性, 日本機械学会論文集(B編), 71巻, 704号, pp. 1148-1154, 2005
  8. コバルトクラスターとエタノールの反応, 日本機械学会論文集(B編), 71巻, 707号, pp. 1909-1914, 2005
  9. Synthesis of single-wall carbon nanotubes from alcohol using Fe/Co, Mo/co, Rh/Pd catalysts, CHEMICAL PHYSICS LETTERS, 406巻, 1-3号, pp. 184-187, 20050423
  10. Diameter control and growth mechanism of single-walled carbon nanotubes, CHEMICAL PHYSICS LETTERS, 410巻, 4-6号, pp. 209-212, 20050720
  11. Trial for diameter-selective synthesis of single-walled carbon nanotubes, CARBON, 44巻, 7号, pp. 1287-1291, 200606
  12. Molecular dynamics simulation of metal coating on single-walled carbon nanotube, CHEMICAL PHYSICS LETTERS, 464巻, 4-6号, pp. 160-165, 20081023
  13. Effect of catalyst combination on growth of single-walled carbon nanotubes, DIAMOND AND RELATED MATERIALS, 17巻, 11号, pp. 1888-1890, 200811
  14. Molecular dynamics simulation of physical vapor deposition of metals onto a vertically aligned single-walled carbon nanotube surface, CARBON, 46巻, 15号, pp. 2046-2052, 200812
  15. Mass Spectroscopy of Chemical Reaction of 3d Metal Clusters Involved in Chemical Vapor Deposition Synthesis for Carbon Nanotubes, Japanese Journal of Applied Physics, 47巻, pp. 1931-1936, 2008
  16. Influence of metal coating on single-walled carbon nanotube: Molecular dynamics approach to determine tensile strength, CHEMICAL PHYSICS LETTERS, 469巻, 1-3号, pp. 125-129, 20090203
  17. Influence of catalyst supporters on catalyst nanoparticles in synthesis of single-walled carbon nanotubes, MICROELECTRONICS JOURNAL, 40巻, 4-5号, pp. 692-696, 2009
  18. Metal coating effect on thermal diffusivity of single-walled carbon nanotube, CHEMICAL PHYSICS LETTERS, 495巻, 1-3号, pp. 80-83, 20100729
  19. Prospective growth region for chemical vapor deposition synthesis of carbon nanotube on C-H-O ternary diagram, DIAMOND AND RELATED MATERIALS, 19巻, 11号, pp. 1401-1404, 201011
  20. Synthesis of single-walled carbon nanotubes using laser-vaporized metal nanoparticle catalyst, JOURNAL OF MECHANICAL SCIENCE AND TECHNOLOGY, 25巻, 1号, pp. 11-15, 201101
  21. Heat Transfer Charactristics of Biomass Slurry under High Pressure and High Temperature, Journal of Japan Institute of Energy, 90巻, pp. 874-880, 2011
  22. MD Study of Functionalized Single-Walled Carbon Nanotube, JOURNAL OF THERMAL SCIENCE AND TECHNOLOGY, 6巻, 2号, pp. 256-267, 2011
  23. 高温高圧下のバイオマススラリーの流動特性, 日本エネルギー学会誌, 90巻, pp. 1165-1170, 2011
  24. Drastic enhancement of effective thermal conductivity of a metal hydride packed bed by direct synthesis of single-walled carbon nanotubes, INTERNATIONAL JOURNAL OF HYDROGEN ENERGY, 37巻, 2号, pp. 1836-1841, 201201
  25. In situ mass spectroscopic analysis for chemical vapor deposition synthesis of single-walled carbon nanotubes, CHEMICAL PHYSICS LETTERS, 533巻, pp. 56-59, 20120423
  26. In situ mass spectroscopic analysis of alcohol catalytic chemical vapor deposition process for single-walled carbon nanotube, CHEMICAL PHYSICS LETTERS, 536巻, pp. 104-108, 20120521
  27. Report on the Seventh U.S.-Japan Joint Seminar on Nanoscale Transport Phenomena-Science and Engineering, NANOSCALE AND MICROSCALE THERMOPHYSICAL ENGINEERING, 17巻, 1号, pp. 25-49, 20130101
  28. Molecular dynamics observation of iron carbon precursors of carbon nanotube and developmen of iron carbon potential, Engineering Journal, 17巻, 5号, pp. 13-18, 2013
  29. Gasification Rate of Various Biomass Feedstocks in Supercritical Water, JOURNAL OF THE JAPAN PETROLEUM INSTITUTE, 56巻, 1号, pp. 1-10, 201301
  30. Simulation of catalyst behavior during chemical vapor deposition processing of carbon nanotubes, CHEMICAL PHYSICS LETTERS, 604巻, pp. 1-4, 20140603
  31. Gasification Characteristics of Alanine in Supercritical Water, JOURNAL OF THE JAPAN PETROLEUM INSTITUTE, 57巻, 5号, pp. 225-229, 201409
  32. Precursor and formation mechanism in the synthesis of carbon nanotubes by chemical vapor deposition, CHEMICAL PHYSICS LETTERS, 616巻, pp. 217-221, 20141125
  33. Trial for simple gas sensor composed of as-grown carbon nanotubes, CHEMICAL PHYSICS LETTERS, 628巻, pp. 81-84, 20150516
  34. Heat Transfer Characteristics of Activated Carbon Suspended Slurry Near the Critical Point of Water, Journal of the Japan Institute of Energy, 92巻, pp. 309-312, 2013
  35. Enhancement of the effective thermal conductivity in packed beds by direct synthesis of carbon nanotubes, JOURNAL OF THERMAL SCIENCE AND TECHNOLOGY, 10巻, 1号, 201501
  36. In situ measurement of activation energy for pyrolysis of ethanol as a first reaction in the synthesis of carbon nanotubes, CHEMICAL PHYSICS LETTERS, 639巻, pp. 261-265, 20151016
  37. Inhibition of char deposition using a particle bed in heating section of supercritical water gasification, KOREAN JOURNAL OF CHEMICAL ENGINEERING, 33巻, 4号, pp. 1261-1266, 201604
  38. Effect of molecular coverage on the electric conductance of a multi-walled carbon nanotube thin film, CHEMICAL PHYSICS LETTERS, 654巻, pp. 9-12, 20160616
  39. Synthesis of photochromic nanoparticles and determination of the mechanism of photochromism, AIP ADVANCES, 6巻, 5号, 201605
  40. Molecular dynamic simulation for the evaluation of free energy distribution along the reaction coordinates at the initial stage of carbon nanotube nucleation, Chemical Physics Letters, 634巻, pp. 194-197, 20150801
  41. Estimation of adsorption energy for water molecules on a multi-walled carbon nanotube thin film by measuring electric resistance, AIP ADVANCES, 6巻, 11号, 201611
  42. Effect of preparation conditions in sol-gel method on yellow phosphor with wide spectrum, AIP ADVANCES, 7巻, 1号, 201701
  43. In-situ Mass Spectroscopic Analysis of Glucose Decomposition under Hydrothermal Condition: Quantitative Analysis for Reaction Kinetics, JOURNAL OF THE JAPAN PETROLEUM INSTITUTE, 60巻, 2号, pp. 101-109, 201703
  44. In situ mass spectrometry of glucose decomposition under hydrothermal reactions, KOREAN JOURNAL OF CHEMICAL ENGINEERING, 34巻, 5号, pp. 1524-1530, 201705
  45. Effect of the Heating Rate on the Supercritical Water Gasification of a Glucose/Guaiacol Mixture, INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH, 56巻, 22号, pp. 6401-6407, 20170607
  46. Transport phenomena of electrons at the carbon nanotube interface with molecular adsorption, JOURNAL OF APPLIED PHYSICS, 122巻, 1号, 20170707
  47. Thermal decomposition products of various carbon sources in chemical vapor deposition synthesis of carbon nanotube, Diamond and Related Materials, 75巻, pp. 1-5, 201705
  48. Defects control in the synthesis of low-dimensional zinc oxide, Chemical Physics Letters, 684巻, pp. 113-116, 20170916
  49. Real-Time Mass Spectrometric Analysis of Hydrothermal Reaction Products, INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH, 56巻, 36号, pp. 9993-9998, 20170913
  50. Quantitative In Situ Mass Spectrometry Analysis of Mannitol Decomposition Products under Hydrothermal Conditions, ENERGY & FUELS, 31巻, 10号, pp. 10866-10873, 201710
  51. Transient behavior of carbon nanotube thin film for adsorption of polar and non-polar molecules, CHEMICAL PHYSICS LETTERS, 691巻, pp. 351-354, 201801
  52. Effects of physical and chemical adsorption on the electric conductance of carbon nanotube films, AIP ADVANCES, 8巻, 1号, 201801
  53. Spontaneous and controlled-diameter synthesis of single-walled and few-walled carbon nanotubes, CHEMICAL PHYSICS LETTERS, 699巻, pp. 88-92, 201805
  54. Effect of Single-walled Carbon Nanotube Catalysts on Hydrothermal Pretreatment of Cellulose, JOURNAL OF THE JAPAN PETROLEUM INSTITUTE, 61巻, 3号, pp. 199-204, 201805
  55. Principles of detection mechanism for adsorbed gases using carbon nanotube nanomat, CHEMICAL PHYSICS LETTERS, 709巻, pp. 77-81, 201810
  56. Suppression of Radical Char Production in Supercritical Water Gasification by Addition of Organic Acid Radical Scavenger, ENERGY & FUELS, 32巻, 9号, pp. 9568-9571, 201809

取得

  1. 特許権, 特許5493127, 2014年03月14日, 水素吸蔵材及びその製造方法