Rchr
J-GLOBAL ID:200901098922879620   Update date: Oct. 16, 2024

Nishioka Masateru

ニシオカ マサテル | Nishioka Masateru
Affiliation and department:
Homepage URL  (1): http://www.aist.go.jp/RESEARCHERDB/cgi-bin/worker_detail.cgi?call=namae&rw_id=M30443951
Research field  (1): Chemical reaction and process system engineering
Research theme for competitive and other funds  (9):
  • 2017 - 2022 The Theory of Microwave-induced Nonequilibrium State and its Application to the Manipulation of Solid/Interfacial Chemical Reactions
  • 2009 - 2011 Combination of a membrane reactor and microwave radiation for high efficient chemical reaction
  • 2004 - 2008 Dynamic Measurement of High Temperature Solid Surface for Investigation of nano-NEMCA Effects
  • 2003 - 2007 Research of gas-phase atomic oxygen anions generated from nano-cage material
  • 2004 - 2005 チューブ状無機膜リアクターを用いたマイクロウェーブ化学反応
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Papers (64):
  • Shuntaro Tsubaki, Jun Fukushima, Aritomo Yamaguchi, Masateru Nishioka, Yuji Wada. Process intensification of the ultra-rapid pyrolysis of bamboo by spatially separated microwave electric and magnetic fields. Chemical Engineering Journal. 2024. 499
  • Takako Nagase, Masato Miyakawa, Masateru Nishioka, Takuji Ikeda. Microwave-assisted Green Synthesis of Mesoporous Zeolite Adsorbents for Direct Air Capture of CO2. CHEMISTRY LETTERS. 2022. 51. 3. 296-299
  • Masato Miyakawa, Shinya Kanamori, Kouki Hagihara, Atsushi Itagaki, Takashi Nakamura, Masateru Nishioka. Cylindrical Resonator-Type Microwave Heating Reactor with Real-Time Monitoring Function of Dielectric Property Applied to Drying Processes. Industrial & Engineering Chemistry Research. 2021. 60. 25. 9119-9127
  • Koichi Sato, Masato Miyakawa, Masateru Nishioka. Rapid control of hydrogen permeation in Pd membrane reactor by magnetic-field-induced heating under microwave irradiation. International Journal of Hydrogen Energy. 2021. 46. 38. 20213-20221
  • Masato Miyakawa, Chizuru Shigaraki, Takashi Nakamura, Masateru Nishioka. In situ microwave heating fabrication of copper nanoparticles inside cotton fiber using pressurization in immiscible liquids with raw material solutions. RSC Advances. 2021. 11. 52. 32541-32548
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MISC (257):
  • TSUBAKI Shuntaro, Hamada Yuki, OHARA Noriko, FUKUSHIMA Jun, NISHIOKA Masateru, SUGIYAMA Takeharu, EINAGA Hisahiro, CHUN Wang-Jae, WADA Yuji, YASUDA Makoto. O-13 Microwave-promoted catalytic pyrolysis of lignocellulose. Proceedings of the Conference on Biomass Science. 2022. 17. 29-30
  • 和田 雄二, 間瀬 暢之, 西岡 将輝, 椿 俊太郎. マイクロ波化学研究の最前線-特集 第16回エレクトロヒートシンポジウム. エレクトロヒート. 2022. 42. 6. 27-31
  • 中村考志, 西岡将輝, 植村聖. マイクロ波プロセッシングの最前線 マイクロ波の磁界加熱による電子部品のはんだ接合技術開発. 金属. 2022. 92. 3. 225-230
  • 和田雄二, 和田雄二, 間瀬暢之, 西岡将輝, 椿俊太郎. マイクロ波化学研究の最前線. エレクトロヒート. 2022. 242
  • 椿俊太郎, 小原則子, 嘉悦陽子, 福島潤, 西岡将輝, 杉山武晴, 永長久寛, CHUN Wang-Jae, 和田雄二. Microwave-driven catalytic pyrolysis of lignocellulose. 日本木材学会大会研究発表要旨集(完全版)(CD-ROM). 2021. 71st
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