Feedback control of microflows

Authors

Mike Armani, National Cancer Institute (NCI)
Zach Cummins, A. James Clark School of Engineering
Jian Gong, University of California, Los Angeles
Pramod Mathai, A. James Clark School of Engineering
Roland Probst, A. James Clark School of Engineering
Chad Ropp, University of Maryland, College Park
Edo Waks, University of Maryland, College Park
Shawn Walker, Louisiana State University
Benjamin Shapiro, A. James Clark School of Engineering

Document Type

Article

Publication Date

10-1-2012

Abstract

This chapter gives an overview of methods we have developed and experimental results we have achieved for precision feedback control of flows and objects inside microfluidic systems. Essentially, we are doing flow control, but flow control on the microscale, and further even to nanoscale accuracy, to precisely and robustly manipulate liquid packets, particles (e.g., cells and quantum dots), and micro- and nanoobjects (e.g., nanowires). Target applications include methods to miniaturize the operations of a biological laboratory (lab-on-a-chip), e.g., presenting pathogens to on-chip sensing cells or extracting cells from messy biosamples such as saliva, urine, or blood; as well as nonbiological applications such as deterministically placing quantum dots on photonic crystals to make multidot quantum information systems.

Publication Source (Journal or Book title)

Feedback Control of MEMS to Atoms

First Page

269

Last Page

319

Recommended Citation

Armani, M., Cummins, Z., Gong, J., Mathai, P., Probst, R., Ropp, C., Waks, E., Walker, S., & Shapiro, B. (2012). Feedback control of microflows. Feedback Control of MEMS to Atoms, 9781441958327, 269-319. https://doi.org/10.1007/978-1-4419-5832-7_9