I am specializing in microfluidic engineering and vascular mechanobiology. My research focuses on developing advanced microchannel-based vascular models to investigate how mechanical stimuli, particularly oscillatory shear stress (OSS), regulate venous valve formation. By integrating microfluidics, 3D printing, and groove-assisted sacrificial molding, I aim to construct biomimetic vascular geometries with controlled branching and diameter variation. Through international collaborations and interdisciplinary approaches, my long-term goal is to establish versatile in vitro platforms that bridge engineering and vascular biology, contributing to both fundamental and future biomedical applications.