Gwo-Bin Lee

TL;DR: In this article, an optically driven platform for the manipulation and patterning of carbon nanotubes (CNTs) can be demonstrated, where a photoconductive layer made of amorphous silicon generates a nonuniform electric field within the developed platform at specific optically illuminated sites, which are referred to as virtual electrodes, that induces dielectrophoretic forces for manipulating the CNTs.

TL;DR: The test results from all male and female samples show a 100% correlation between the microchip electrophoresis and the existing methods and the signal was greatly enhanced with the use of both covalent (Cy5) and intercalating dye (TORRO‐3), which has never been demonstrated before.

TL;DR: This work presents a model behind the operation of a flow-through sampling chip and its application for immunoseparation, as well as its integration with a wash/elution bed for protein purification, concentration, and detection.

TL;DR: In this paper, a new microfluidic platform for double-emulsion applications has been developed, which integrates T-junction channels, moving-wall structures, and a flow-focusing structure.

TL;DR: In this article, a microfluidic chip capable of delivering and prepositioning cells in a predefined trapping zone, and followed by manipulation of buried optical fibers for on-chip, dual-beam, optical trapping and stretching is reported.