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J-GLOBAL ID:200901036326116370   Update date: Jan. 30, 2024

Sato Kiminori

サトウ キミノリ | Sato Kiminori
Affiliation and department:
Tokyo Gakugei University Department of Environmental Sciences

About Tokyo Gakugei University Department of Environmental Sciences


Job title: Professor
Other affiliations (3):
  • Tokyo Gakugei University  Science   Professor
  • Tokyo Gakugei University  Research and Development of Next Generation Japanese Educational System (Master'sCourse)   Professor
  • Tokyo Gakugei University  Mathematics and Natural Science Education (Doctoral Course)   Professor
Research field  (1): Semiconductors, optical and atomic physics
Research keywords  (1): 環境,材料,物性,陽電子,分子シミュレーション
Research theme for competitive and other funds  (11):
  • 2022 - 2025 Formation of quasi-one-dimensional ice in silicate materials and super proton conductivity therein
  • 2018 - 2021 Development of functional open spaces in two-dimensional inorganic nanoagglomerates
  • 2019 - 2021 Development of functional open spaces using well-known two-dimensional nanomaterials
  • 2015 - 2018 Changes of fault materials and their surrounding environments during seismic cycle
  • 2013 - 2016 Study of matrix diffusion in geological environment
Show all
Papers (36):
  • Kiminori Sato and Kenji Ito. Improvement of the far-infrared optical property for glasses by plasma-assisted dispersion of fluorocarbon species into the shallow surface, Kiminori Sato and Kenji Ito, Rev. Sci. Instrument 92, 0639051-0639056 (2021). Review of Scientific Instrument. 2021. 92. 0639051-0639056
  • Kiminori Sato, Takuma Orihara, Michael Dyballa, and Michael Hunger. Instantaneous Ex Situ Mineral Carbonation Relevant to Alkali Metals in Clay Nanoparticles, Kiminori Sato, Takuma Orihara, Michael Dyballa, and Michael Hunger, J. Phys. Chem. C 125, 4878-4884 (2021). The Journal of Physical Chemistry C. 2021. 125. 4878-4884
  • Kiminori Sato and Minori Kamaya. Origin of enhanced boric acid adsorption in light-burned magnesium oxide, Kiminori Sato and Minori Kamaya, J. Chem. Phys. 153, 1247041-1247048 (2020). The Journal of Chemical Physics. 2020. 153. 1247041-1247048
  • Kiminori Sato and Nagayasu Oshima. Evaluation Methodology of Diffusion Coefficient of Guest Substances Associated with Angstrom-Scale Open Spaces in Materials by Slow Positron Beam, Kiminori Sato and Nagayasu Oshima, Rev. Sci. Instruments 91, 0839071-0839075 (2020). Review of Scientific Instruments. 2020. 91. 0839071-0839075
  • Kiminori Sato and Masataka Nakata. Alternation Mechanism of Lead Sulfate toward Lead Sulfide under Sulfuric Acid Condition, Kiminori Sato and Masataka Nakata, J. Phys. Chem. C 124, 19616-19621 (2020). The Journal of Physical Chemistry C. 2020. 124. 19616-19621
more...
Books (2):
  • Nanomaterials in Energy and Environmental Applications.
    Pan Stanford Publishing Pte. Ltd., Singapore 2016
  • Quasicrystals,Types, Systems, and Techniques, eds. B.E. Puckermann , “Chapter 3. Vacancies in Quasicrystals”,
    Nova Science Publishers, Inc., New York 2011 ISBN:9781617612305
Lectures and oral presentations  (15):
  • The role of Ce packing state in glass-forming ability for Ce-based bulk metallic glasses
    (III International Conference and School <Synthesis, structure and properties of high-entropy materials> 2021)
  • 光触媒能を促進する酸化チタン表面吸着水の研究
    (2021)
  • Study of Molecular Dispersion into Materials by Positrons Coupled with Other Techniques
    (2019)
  • バイオ炭中の硝酸イオン吸着サイトに関する研究
    (2019)
  • Application of positronium annihilation spectroscopy to open-space analysis in soft materials
    (Deutschsprachiger Japanologentag, Halle-Wittenberg:Germany(2009) 2018)
more...
Professional career (1):
  • 博士(工学)
Association Membership(s) (4):
日本物理学会 ,  日本陽電子科学会 ,  日本アイソトープ協会 ,  日本放射線化学会
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