School personnel information




Nuclear fuel, Thermoelectric materials, Molten materials, Levitation method

Mail Address

Mail Address




Organization 【 display / non-display

  • 2009.10.01 - 2016.01.31, Division of Sustainable Energy and Environmental Engineering, Graduate School of Engineering, Assistant Professor

  • 2016.02.01 - , Frontier Research Base for Global Young Researchers, Graduate School of Engineering, Assistant Professor


Academic Papers 【 display / non-display

  • Thermophysical properties of molten Zr1-xOx (x=0.1, 0.2) measured by electrostatic levitation , Ohishi, Yuji, Kurokawa, Kouta, Sun, Yifan, Muta, Hiroaki, JOURNAL OF NUCLEAR MATERIALS ,528, 2020.01, Papers

  • Biosynthesis of bismuth selenide nanoparticles using chalcogen-metabolizing bacteria, Kuroda, M., Suda, S., Sato, M., Ayano, H., Ohishi, Y., Nishikawa, H., Soda, S., Ike, M., Applied Microbiology and Biotechnology,103:8853–8861, 2019.10, Papers

  • Thermophysical Properties of Liquid Al-Cu Alloys , Sun, Yifan,Muta, Hiroaki,Ohishi, Yuji, INTERNATIONAL JOURNAL OF THERMOPHYSICS ,40(9), 2019.09, Papers

  • First-principles calculation study of Mg2XH6 (X=Fe, Ru) on thermoelectric properties , Wang, Yunxia,Ohishi, Yuji,Kurosaki, Ken,Muta, Hiroaki, MATERIALS RESEARCH EXPRESS ,6(8), 2019.08, Papers

  • Density and viscosity of liquid ZrO2 measured by aerodynamic levitation technique , Kondo, Toshiki,Muta, Hiroaki,Kurosaki, Ken,Kargl, Florian,Yamaji, AkifumiFuruya, Masahiro,Ohishi, Yuji, HELIYON ,5(7), 2019.07, Papers

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Patents / Utility models / Designs 【 display / non-display

  • Japan, Thermoelectric converters having copper gallium telluride p-type semiconductor layers their manufacture and copper gallium telluride thermoelectric conversion materials, JP 2013016685 A 20130124(Application), 2013.01