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Dynamic Manipulation by Light and Electric Fields: Micrometer Particles to Microliter Droplets
Birck and NCN Publications
  • Aloke Kumar, Birck Nanotechnology Center, Purdue University, West Lafayette
  • Han-Sheng Chuang, Indiana University - Purdue University - Fort Wayne
  • Steven Wereley, Purdue University - Main Campus
Abstract
We demonstrate a new hybrid optoelectric technique that can manipulate objects across several length scales. The technique leverages a variety of different physical mechanisms to achieve the dynamic manipuladon old roplets and also the in situ concentration of colloidal particles suspended in the droplets. Various physical mechanisms such as optoelectrowetting, electrothermal flows, and ac electroosmosis are leveraged through different modes of operation of the device. Each operational mode, which is activated through die proper combination of an applied ac bias and the illumination used, is characterized by the ability to manipulate objects on a certain length scale. We also demonstrate that the device lends itself to the active control of microstructure pattenis that emerge from a droplet evaporation process.
Keywords
  • DIGITAL MICROFLUIDICS; MICROELECTRODES; ELECTROLYTES; ACTUATION
Date of this Version
6-1-2010
Citation
DOI: 10.1021/la100614h
Citation Information
Aloke Kumar, Han-Sheng Chuang and Steven Wereley. "Dynamic Manipulation by Light and Electric Fields: Micrometer Particles to Microliter Droplets" (2010)
Available at: http://works.bepress.com/aloke_kumar/6/