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Search Publications by: Laurie E. Locascio (Fed)

Displaying 26 - 37 of 37

Micropatterning Neuronal Cells on Polyelectrolyte Multilayers

July 7, 2004

Author(s)

Darwin Reyes-Hernandez, Elizabeth M. Perruccio, Patricia Becerra, Laurie E. Locascio, Michael Gaitan

This paper describes an approach to adhere retinal cells on micropatterned polyelectrolyte multilayer (PEM) lines adsorbed on polydimethylsiloxane (PDMS) surfaces, using microfluidic networks. PEMs were patterned on flat oxidized PDMS surfaces by

Controlled Vesicle Self-Assembly in Continuous Two Phase Flow Microfluidic Channels

June 10, 2004

Author(s)

Andreas Jahn, Wyatt N. Vreeland, Laurie E. Locascio, Michael Gaitan

The spontaneous self-assembly of phospholipids into liposomes in aqueous solution results in the encapsulation of reagents into quantized packets in a manner that mimics cellular life-processes. Since their discovery in 1965, liposomes have been used in a

Embedded MicroHeating Elements in Polymeric MicroChannels for Temperature Control and Fluid Sensing

May 1, 2004

Author(s)

Michael Gaitan, Laurie E. Locascio

Patterning Retinal Cells on Polyelectrolyte Multilayers

February 18, 2004

Author(s)

Darwin Reyes-Hernandez, Elizabeth M. Perruccio, Patricia Becerra, Laurie E. Locascio, Michael Gaitan

The patterning of retinal epithelial cells on polyelectrolyte multilayer (PEMs) lines is presented. PEMs were deposited in discrete lines using a poly(dimethylsiloxane) (PDMS) microfluidic network on top of a flat PDMS slab. The layers were formed by

Controlled Vesicle Self-Assembly in Microfluidic Channels with Hydrodynamic Focusing

December 18, 2003

Author(s)

Andreas Jahn, Wyatt N. Vreeland, Michael Gaitan, Laurie E. Locascio

Surface Characterization of Laser- Ablated Polymers Used for Microfluidics

February 15, 2002

Author(s)

D L. Pugmire, E A. Waddell, R Haasch, Michael J. Tarlov, Laurie E. Locascio

Fabrication of microfluidic devices by excimer laser ablation under different atmospheres may provide variations in polymer microchannel surface characteristics. The surface chemistry and electroosmotic (EO) mobility of polymer microchannels laser ablated

Detection of Viable Cryptosporidium Parvum Using DNA-Modified Liposomes in a Microfluidic Chip

July 1, 2001

Author(s)

M. B. Esch, Laurie E. Locascio, Michael J. Tarlov, R. A. Durst

This paper describes a microfluidic chip that enables the detection of viable Cryptosporidium parvum by detecting RNA amplified by nucleic-acid sequence-based amplification (NASBA). The mRNA serving as the template for NASBA is produced by viable C. parvum