Our principal research interests lie in engineering new types of biohealth materials by taking advantages a variety of physical states that are easily deformed by thermal stresses or thermal fluctuations. Particularly we figure out how their structural and mechanical properties should be designed and controlled to ensure practical applications in complex biosystems. The major research efforts include drop-based microfluidics, biomimetic adhesion and packaging, synthesis and assembly of amphiphiles, suspension rheology of nanobiofluids, bioelectric sensing.