Lyon Center

Lyon Center(LyC)
Integration Research Center for Materials and Fluid Sciences

Collaborative Research Projects

  • Active Control of Protein Mass Transfer by Membranes with Various Pore Patterns

    Atsuki KOMIYA
    Institute of Fluid Science, Tohoku University

  • Shape estimation of pipe inner corrosion based on ultrasonic reflection

    Hiroyuki NAKAMOTO
    Kobe University

  • Investigation of a predictive therapeutic response under controlled oxygen condition in cancer patient-derived organoids

    Nicolas AZNAR
    Cancer Research Center of Lyon

  • Experimental study of new model electroactive materials (TEmPuRA)

    Gildas COATIVY
    INSA Lyon

  • Nonlinear Bifurcation and Dynamic Mode decomposition for Taylor Vortex in Gap between Rotating Two Cylinders/Cones

    Takahiro ADACHI
    Akita University

  • Monitoring eukaryotic cell functions under various hypoxic conditions with microfluidic differential oxygenators

    Jean-Paul RIEU
    University Claude Bernard Lyon 1

  • Finsler geometry modeling of skyrmions geometrically confined in nanodots: stability and morphology under stresses

    Fumitake KATO
    National Institute of Technology, Ibaraki College

  • Numerical Study on Electrical Drift and Diffusion of Ions in Polymer Strips

    Joel COURBON
    INSA Lyon

  • Mass Transfer Enhancement and Control by using Ultrasound Induced Flow

    Atsuki KOMIYA
    Institute of Fluid Science, Tohoku University

  • Coupled Analysis Approach to Integrated Multiphase Energy Systems

    Jun ISHIMOTO
    Institute of Fluid Science, Tohoku University

  • Multiscale simulation of Carbon electromigration in iron

    Takashi TOKUMASU
    Institute of Fluid Science, Tohoku University

  • Recipe of polymer coating by cold spray

    Chrystelle BERNARD
    Frontier Research Institute for Interdisciplinary Sciences, Tohoku University

  • Epoxy polymer for ammonia storage solutions

    Nicolas MARY
    INSA Lyon

  • Clarification of flow structures related to jet noise generation using mode analysis and high-precision jet flow simulation

    Aiko YAKENO
    Institute of Fluid Science, Tohoku University

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