Kyushu University - Japan
AUTHOR PROFILE
PERSONAL INFORMATION
NAOKI TAKEISHI holds a Ph.D. in Biomedical Engineering from Tohoku University, Japan, and currently serves as an Associate Professor at the Department of Mechanical Engineering, Kyushu University, Japan.
PROFESSIONAL EXPERIENCES
Dr. Takeishi's career spans prestigious institutions globally, including roles as a Research Fellow at Tohoku University and Kyoto University, Japan, and as Assistant Professor at Osaka University. He has conducted research visits at MIT, USA, and KTH, Sweden, enriching his expertise in biomechanics and fluid mechanics.
EDUCATION
He completed his undergraduate studies in Mechanical Engineering at Shizuoka University, Japan, followed by a Master's in Biomedical Engineering at Tohoku University, where he later earned his Ph.D.
AWARDS
Dr. Takeishi has received numerous accolades, including the Papers of the Year Award from the Japan Society of Mechanical Engineering and the RYUMON Award for Distinguished Young Researcher in Fluid Mechanics. His achievements also include the Young Investigator Award from the Japan Society of Biorheology and the Rising Star Award at the ESCHM-ISCH-ISB Conference.
RESEARCH AREA
His research focuses on Computational Fluid Mechanics, Computational Biomechanics, Microcirculation, Suspension Rheology, Cell/Membrane Mechanics, Cancer Metastasis, and Cerebral Fluid dynamics.
PROFESSIONAL ENGAGEMENT
Dr. Takeishi actively contributes to advancing knowledge through research and serves in professional societies, enhancing understanding in biomechanics and engineering sciences.
NOTABLE PUBLICATION
Flow of a circulating tumor cell and red blood cells in microvessels 2015 (58)
Computational fluid dynamics assessment of congenital tracheal stenosis 2022 (6)
Enhanced axial migration of a deformable capsule in pulsatile channel flows 2023 (1)
Numerical analysis of viscoelasticity of two-dimensional fluid membranes under oscillatory loadings 2024
Cerebrospinal fluid flow driven by arterial pulsations in axisymmetric perivascular spaces: analogy with Taylor’s swimming sheet 2021 (8)