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YAMASHITA Kyohei  Assistant Professor
Tokyo University of Science, Faculty of Science Division I, Department of Physics
Profile | Topics | Assigned Courses(3)
Refereed Papers(33) | Refereed Proceedings(2) | Other Papers(1) | Publications(1) | Presentations(52)
Address 1-3 Kagurazaka, Shinjuku-ku, Tokyo 162-8601, Japan
TEL : +81-3-3260-4271  ext : 2414
E-mail Address
Homepage https://www.tus.ac.jp/
https://www.rs.kagu.tus.ac.jp/eiji/
Information about TUS https://www.tus.ac.jp/academics/teacher/lightbox/7221.html
Pure
(Researcher Profiling Tool)
https://tus.elsevierpure.com/ja/persons/kyohei-yamashita
Under-Graduate School
  • 2007, Tokyo University of Science Faculty of Science Physics 
Graduate School
  • 2019, Tokyo University of Science Graduate School, Division of Natural Science Physics Doctoral Degree
Postgraduate Qualification
  • Tokyo University of Science Doctor of Science
Research History
  • April 2006 - July 2009: Engaged in research on "Photo-Hydrogen Production by Green Algae and Simple Manufacturing Method of Microchemical Chips."
    December 2014 - June 2015: Engaged in research on "Absorption Spectroscopic Imaging Method for Unicellular Algae."
    November 2015 - Present: Engaged in research on "Absorption Spectroscopic Imaging Method for Unicellular Algae, Hydrogen Production by Green Algae, Cultivation Methods of Microalgae (Euglena) Using Food, Cell Viability Assessment Using Natural Pigments, Development of Micro-Stirrers, Statistical Analysis of Cellular Spatial Distribution in Microspaces, Steiner Education, Music Therapy, and EEG Measurement During Artistic Activities."
Employment History
  • 201904-202003 Department of Physics, Faculty of Science, Tokyo University of Science, Postdoctoral Researcher
Research Keyword Biophysics
Research Area
  • Education (EEG Measurement during Steiner Education, Music Therapy, and Artistic Activities)
  • Biological physics/Chemical physics/Soft matter physics (Single-Cell Absorption Imaging of Microalgae)
  • Biophysics (Efficient Production Technology for Euglena Using Food Products)
Research Theme
  • Develop methods to efficiently cultivate Euglena and produce functional components by utilizing ingredients found in food. Additionally, perform analysis using absorption spectral imaging to investigate local absorption spectra at the single-cell level.
  • Scientific analysis of the states of practitioners and subjects during Steiner education, music and art activities, and artistic practices (including measurements of brain waves, body temperature, heart rate, respiratory rate, etc.)
  • Develop a non-invasive cell viability assay using safe and affordable natural pigments. Sensitive and non-invasive search for natural dyes under various conditions (temperature, pH).
Academic Awards Received
  • 2023.9.1

    Paper and illustration selected for back cover of the journal

Academic Society Affiliations
Guest Professor
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