Future of Biomedical
Research
Research in sensing without intervention is critical for health experiments in both space and on Earth. This approach eliminates the need to harm the sample, which could otherwise impact the primary mission of space exploration. Therefore, this technology is poised to become a key innovation in biomedical engineering, applicable both on Earth and for future space missions.
Our Publications
Quantitative investigation of a 3D bubble trapper in a high shear stress microfluidic chip using computational fluid dynamics and L*A*B* color space.
Boonsiri, W., Aung, H.H., Aswakool, J. et al.
Non-invasive measurement of wall shear stress in microfluidic chip for osteoblast cell culture using improved depth estimation of defocus particle tracking method.
Hein Htet Aung, Phattarin Pothipan, Jirasin Aswakool, Siraphob Santironnarong, Rungrueang Phatthanakun, Visarute Pinrod, Thanakorn Jiemsakul, Wares Chancharoen, Aekkacha Moonwiriyakit;