Description

Novel electric field-assisted microfluidic platforms were developed to exploit unique migration phenomena, particle manipulation, and enhanced droplet control. The platforms can facilitate various analytical challenges such as size-based separations, and

Novel electric field-assisted microfluidic platforms were developed to exploit unique migration phenomena, particle manipulation, and enhanced droplet control. The platforms can facilitate various analytical challenges such as size-based separations, and delivery of protein crystals for structural discovery with both high selectivity and sensitivity. The vast complexity of biological analytes requires efficient transport and fractionation approaches to understand variations of biomolecular processes and signatures.

6.09 MB application/pdf

Download count: 0

Details

Contributors
Date Created
  • 2020
Resource Type
  • Text
  • Collections this item is in
    Note
    • Doctoral Dissertation Chemistry 2020

    Machine-readable links