Publications

In this study, we present a flexible liquid-diode microtube designed specifically for directional liquid transport in closed spaces, achieved through microfluidics.

We report the a hemeline-shaped microfiber and demonstrate its liquid manipulation abilities.

We have employed a pulse-generating microfluidic system to generate complex flow configurations and fabricate jellyfish-like microparticles.

We present microfluidic-derived stimuli-responsive spindle-knotted fibers for droplet manipulation

We present a microcapsule system encapsulated with a three-dimensional (3D) GO scaffold inside as a highperformance sulfur host.

We proposed a piezoelectric microfluidic strategy for generating microfibers with programmable knotted structures

We believe that cellular fluidics opens a new avenue for fluid control and deterministic delivery, and would find vast opportunities in tissue engineering.

We develop an all-in-one microcapsule composed of carbon nanotubes (CNTs) growing inside the microcapsule as a novel sulfur host.

We report the first experiment of the jetting regime upon actuation in axisymmetric flow focusing (AFF) and study the effects of process parameters on the breakup length of the liquid jet and the size of resultant droplets quantitatively.

Pesticide-loaded microcapsules are produced by liquid driven coaxial flow focusing (LDCFF) process.

Complex emulsion templates with irregular shapes are prepared by a simple but effective multiplex coaxial flow focusing process.

A single-step fabrication of multicompartment Janus microcapsules (MJMs) in a wide range of operating parameters was proposed by a simple but efficient multiplex coaxial flow focusing (MCFF) process.