AKIYAMA Yoshikatsu

NameAKIYAMA Yoshikatsu
DepartmentInstitute of Advanced Biomedical Engineering and Science (Tokyo Women’s Medical University)
Division of Biomedical Engineering and Science,
Graduate Course of Medicine
TitleAssistant Professor
[Joint Appointment]
Department
Title
Areas of ExpertiseBiomaterial. Polymer chemistry, Micro-porous material
QualificationsPh.D. (Tokyo Science Univ.)
BiographyEducation
1990-1994 B. Sc. in Department of Applied Biological Science, Tokyo University of Science.
1994-1996 M. Sc. in Department of Applied Biological Science, Tokyo University f Science.
Entitled: “Preparation of Saccharide-Silica Composites by a Sol-Gel Method and the Application for Optical Resolution of Metal Chelae Compounds”
2001 Ph. D. in Department of Pure and Applied Chemistry, Tokyo University of Science.
Entitled: “Development of novel organic and inorganic composite and the control of properties of the composite by the organic molecules”

Work Experience
1996-1997 R&D division, Pharmacia. Biotech K. K. (Current company name is GE healthcare Japan)
Research theme: “Evaluation of temperature-responsive chromatogray for products”
1998-2001 Temporary transfer to advanced Stimuli Polymer Material Group, Japan Chemical Innovation Institute as a researcher.
Research theme: “Development of novel affinity chromatography media by using temperature-responsive polymers” and “Development of new temperature-responsive polymers with LCTS or UCST”
2001-2002 R&D division, Amersham Pharmacia Biotech, Inc. (Current company name is GE healthcare Japan).
Research theme: “Evaluation of planner QCM-based biosensor”
2002-2007 Assistant Professor, Institute of Advanced Biomedical Engineering and Science, Tokyo Women’s Medical University.
Research theme: “Characterization of temperature-responsive cell culture surfaces to express temperature-induced cell attachment and detachment properties”
2008- Lecturer, Institute of Advanced Biomedical Engineering and Science, Tokyo Women’s Medical University. Research theme: “Mechanical stretch-induced alternation of temperature-responsive cell culture surface properties” and “Simple preparation of temperature-responsive cell culture surface by using photoinitiator immobilized surfaces and photopolymerization”
Publications→TWMU Database
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