液中及び気中での微粒子、ナノ粒子の基礎的挙動の評価と制御に基づく材料、環境・エネルギー応用
メンバー: 神谷秀博
分野: プロセス・化学工学
所属: 工学研究院
キーワード: 微粒子工学、材料プロセス、コロイドプロセス工学、PM2.5
ウェブサイト:
研究概要
セラミックス及びその微粒子分散高分子複合体など様々な素材の原料に微粒子、ナノ粒子は用いられている。素材機能の向上には、粒子と流体の界面のナノ、分子レベルの構造設計による粒子間相互作用の設計による微粒子の付着・凝集挙動の制御が重要な基盤技術となっている。本研究室では、コロイドプローブAFM法など粒子間相互作用等、微粒子、ナノ粒子の挙動制御に必要な様々な評価法を確立し、様々な材質の微粒子の挙動制御を試みている。
主要論文・参考事項
(1)S.J. Flynnz, Z.B. Tong, R.Y. Yang, H. Kamiya, A.B. Yu, H.K. Chan, Computational fluid dynamics (CFD) investigation of the gas–solid flow and performance of Andersen cascadeimpactor, Powder Technol. 2015
(2)Yosuke Nomura, Ilya V. Anoshkin, Chikaaki Okuda, Motoyuki Iijima, Yoshio Ukyo, Hidehiro Kamiya, Albert G. Nasibulin, and Esko I. Kauppinen, Carbon Nanotube/Nanofibers and Graphite Hybrids for Li-Ion Battery Application, Journal of Nanomaterials, 2014,
(3)Motoyuki Iijima, Kazuki Oguma, Aki Kurumiya, Hidehiro Kamiya, Fabrication of composite particles by attaching surface-modified nanoparticles to core particles by wet processing in organic solvents, Colloids and Surfaces A, 452, 51-58, 2014
(4)Motoyuki Iijima, Takahiko Otsubo, Hidehiro Kamiya, Dispersion of inorganic electrolytes in low-polarity solvents assisted by surface modified magnetic nanoparticles and their base catalytic properties, Chemical Engineering Science, 91(22), 65-69, 2013
(5)Yoko Hanada, Shoichi Masuda, Motoyuki Iijima, Hidehiro Kamiya, Analysis of dispersion and aggregation behavior of carbon black particles in aqueous suspension by colloid probe AFM method, Adv. Powder Technol. 24(5), 844-851, 2013,
(6)Motoyuki Iijima and Hidehiro Kamiya, “Layer-by-Layer Surface Modification of Functional Nanoparticles for Dispersion in Organic Solvents,” Langmuir, 2010, 26 (23), 17943–17948
(7)Masanori Nikaido, Sachiko Furuya, Soichi Kondo, Motoyuki Iijima, Hidehiro Kamiya, “TiO2 Supported on Porous Aluminosilicate Prepared in Cationic Surfactant Solution for Acetaldehyde Decomposition with a Protection of Organic Base Materials,” J. Am. Ceram. Soc., 93(7), 2048-2054 (2010)
(8)Motoyuki Iijima, Murino Kobayakawa, Miwa Yamazaki, Yasuhiro Ohta and Hidehiro Kamiya, “Anionic Surfactant with Hydrophobic and Hydrophilic Chains for Nanoparticle Dispersion and Shape Memory Polymer Nanocomposites,” J. Am. Chem. Soc. 131(45) 16342-16343 (2009)
(9)M. Tsukada, N. Nishikawa, A. Horikawa, M. Wada, Y. Liu, H. Kamiya, “Emission potential of condensable suspended particulate matter from flue gas of solid waste combustion”, Powder Technol. 180 (2008) pp.140-144
(10)M. Tsukada, K. Kawashima, H. Yamada, Y. Yao, H. Kamiya, “Analysis of adhesion behavior of waste combustion ash at high temperatures and its control by the addition of coarse particles”, Powder Technol. 180 (2008) pp. 259-264
お問い合わせ先
東京農工大学・先端産学連携研究推進センター
urac[at]ml.tuat.ac.jp([at]を@に変換してください)
Fundamental characterization and control of fine and nanoparticles behaviors in liquid and gas phase, and application for materials, environmental and energy fields
Research members: Dr. Hidehiro Kamiya
Research fields: Process/Chemical engineering
Departments: Institute of Engeneering
Keywords: Fine particle technology, material process, colloidal process engineering, PM2.5
Web site:
Summary
Fine and nanometer scaled particles are applying for various kinds of functional materials. For the development of functional properties of materials, nanoparticles behavior control, such as aggregation/dispersion, adhesion and packing, is one of the most important fundamental technologies based on the characterization and design of surface interaction between particles. In our laboratory, various kinds of original characterization methods are developing, and apply for control of fine and nanoparticles behaviors.
Reference articles and patents
(1)S.J. Flynnz, Z.B. Tong, R.Y. Yang, H. Kamiya, A.B. Yu, H.K. Chan, Computational fluid dynamics (CFD) investigation of the gas–solid flow and performance of Andersen cascadeimpactor, Powder Technol. 2015
(2)Yosuke Nomura, Ilya V. Anoshkin, Chikaaki Okuda, Motoyuki Iijima, Yoshio Ukyo, Hidehiro Kamiya, Albert G. Nasibulin, and Esko I. Kauppinen, Carbon Nanotube/Nanofibers and Graphite Hybrids for Li-Ion Battery Application, Journal of Nanomaterials, 2014,
(3)Motoyuki Iijima, Kazuki Oguma, Aki Kurumiya, Hidehiro Kamiya, Fabrication of composite particles by attaching surface-modified nanoparticles to core particles by wet processing in organic solvents, Colloids and Surfaces A, 452, 51-58, 2014
(4)Motoyuki Iijima, Takahiko Otsubo, Hidehiro Kamiya, Dispersion of inorganic electrolytes in low-polarity solvents assisted by surface modified magnetic nanoparticles and their base catalytic properties, Chemical Engineering Science, 91(22), 65-69, 2013
(5)Yoko Hanada, Shoichi Masuda, Motoyuki Iijima, Hidehiro Kamiya, Analysis of dispersion and aggregation behavior of carbon black particles in aqueous suspension by colloid probe AFM method, Adv. Powder Technol. 24(5), 844-851, 2013,
(6)Motoyuki Iijima and Hidehiro Kamiya, “Layer-by-Layer Surface Modification of Functional Nanoparticles for Dispersion in Organic Solvents,” Langmuir, 2010, 26 (23), 17943–17948
(7)Masanori Nikaido, Sachiko Furuya, Soichi Kondo, Motoyuki Iijima, Hidehiro Kamiya, “TiO2 Supported on Porous Aluminosilicate Prepared in Cationic Surfactant Solution for Acetaldehyde Decomposition with a Protection of Organic Base Materials,” J. Am. Ceram. Soc., 93(7), 2048-2054 (2010)
(8)Motoyuki Iijima, Murino Kobayakawa, Miwa Yamazaki, Yasuhiro Ohta and Hidehiro Kamiya, “Anionic Surfactant with Hydrophobic and Hydrophilic Chains for Nanoparticle Dispersion and Shape Memory Polymer Nanocomposites,” J. Am. Chem. Soc. 131(45) 16342-16343 (2009)
(9)M. Tsukada, N. Nishikawa, A. Horikawa, M. Wada, Y. Liu, H. Kamiya, “Emission potential of condensable suspended particulate matter from flue gas of solid waste combustion”, Powder Technol. 180 (2008) pp.140-144
(10)M. Tsukada, K. Kawashima, H. Yamada, Y. Yao, H. Kamiya, “Analysis of adhesion behavior of waste combustion ash at high temperatures and its control by the addition of coarse particles”, Powder Technol. 180 (2008) pp. 259-264
Contact
University Research Administration Center(URAC),
Tokyo University of Agriculture andTechnology
urac[at]ml.tuat.ac.jp
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