COMSOL-Multiphysics is used to improve the design of the new vortex-based flow chips to capture particles. With combining the dragonfly-wing microstructure in the flow channel,this flow chip is expected to generate low Reynolds number vortex inside the corrugated grooves, and to trap particles. Not only the particle flow simulation, but also the PDMS flow chips with dragonfly-wing microstructure have been successfully fabricated and tested. The anthor assigned the line width of the dragonfly-wing as 20μm, and the particles sizes as 10 and 20μm. The popular PDMS chip process include the SU-8 photolitnography, PDMS molding, plasma treatment and the glass bonding. The related particle flow feeding experiment reveals that the microbeads begin captured after 3min, and evenmore choke the lower channel undermeath the dragonfly-wing after 6-9min. Based on the expenmental observation, the anthor re-define the function of the dragonfly-wing flow channel, and would combine it to work together with Sollier’s tumor cell capture chp. The goal is to reduce the Sollier’s chip size by the vortex-based dragonfly wing herein.