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－　　－16Toshiyuki SATOAssistant Professor, Department of Applied Molecular ChemistryToshiyuki Sato is an assistant professor at the Department of Applied Molecular Chemistry, College of Industrial Technology, Nihon University. His three research themes interest include continuous reactive crystallization for metal oxide nanoparticles in hot-compressed water using micro-reactor, development of mixing device using micro-space, and development of energy-saving separation process for measurement of isobaric vapor-liquid equilibrium at low to elevated pressure. Dr. Sato received his B.S. in Engineering in Industrial Chemistry from the Nihon University’s College of Industrial Technology in 2001, and his M.S. in Engineering in Industrial Chemistry from Nihon University’s Graduate School of Industrial Technology in 2003. He joined Taiatsu Techno Corporation in 2003 and was assigned to the Technology Group. Dr. Sato obtained his Ph. D. from Nihon University Advanced Research Institute for the Sciences and Humanities (ARISH) under the supervision of Prof. Dr. Tatsuaki Yashima, Prof. Dr. Hiizu Iwamura and Prof. Dr. Toshihiko Hiaki in 2008.Research Achievements1)Enhanced production of α-form indomethacin using antisolvent crystallization method assisted by N2 fine bubbles, Journal of Crystal Growth, Volume 469, 91-96, 2017.2)Continuous hydrothermal synthesis of Ca1-xSrxTiO3 solid-solution nanoparticles using a T-type micromixer, The Journal of Supercritical Fluids, Volume 85, 159-164, 2014.3)Continuous Hydrothermal Synthesis of Nickel Ferrite Nanoparticles Using a Central Collision-Type Micromixer: Effects of Temperature, Residence Time, Metal Salt Molality, and NaOH Addition on Conversion, Particle Size, and Crystal Phase, Industrial and Engineering Chemistry Research, Volume 50, 9625-9631, 2011.4)Continuous hydrothermal synthesis of Fe2O3 nanoparticles using a central collision type micromixer for rapid and homogeneous nucleation at 673 K and 30 MPa, Industrial and Engineering Chemistry Research, Volume 49, 8841-8846, 2010.5)Hydrothermal Synthesis of CuAlO2 with the Delafossite Structure in Supercritical Water, The Journal of Supercritical Fluids, Volume 46, Issue 2, 173-177, 2008.