Search Results - "Patabadige, Damith E. W."

Integrating Optical Fiber Bridges in Microfluidic Devices to Create Multiple Excitation/Detection Points for Single Cell Analysis by Patabadige, Damith E. W, Sadeghi, Jalal, Kalubowilage, Madumali, Bossmann, Stefan H, Culbertson, Anne H, Latifi, Hamid, Culbertson, Christopher T

“…A microfluidic device is reported that employs an out-of-plane optical fiber bridge to generate two excitation and two detection spots in a microfluidic…”
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Micro Total Analysis Systems: Fundamental Advances and Applications by Patabadige, Damith E. W, Jia, Shu, Sibbitts, Jay, Sadeghi, Jalal, Sellens, Kathleen, Culbertson, Christopher T

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Label-free time- and space-resolved exometabolite sampling of growing plant roots through nanoporous interfaces by Patabadige, Damith E. W., Millet, Larry J., Aufrecht, Jayde A., Shankles, Peter G., Standaert, Robert F., Retterer, Scott T., Doktycz, Mitchel J.

“…Spatial and temporal profiling of metabolites within and between living systems is vital to understanding how chemical signaling shapes the composition and…”
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Out-of-plane integration of a multimode optical fiber for single particle/cell detection at multiple points on a microfluidic device with applications to particle/cell counting, velocimetry, size discrimination and the analysis of single cell lysate injections by Sadeghi, Jalal, Patabadige, Damith E W, Culbertson, Anne H, Latifi, Hamid, Culbertson, Christopher T

“…In this paper a single particle/cell-tracking microfluidic device that integrates an out-of-plane multimode optical fiber (OP-MMF) is reported. This OP-MMF is…”
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High-throughput microfluidic device for single cell analysis using multiple integrated soft lithographic pumps by Patabadige, Damith E. W., Mickleburgh, Tom, Ferris, Lorin, Brummer, Gage, Culbertson, Anne H., Culbertson, Christopher T.

“…The ability to accurately control fluid transport in microfluidic devices is key for developing high‐throughput methods for single cell analysis. Making small,…”
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Label-free time- and space-resolved exometabolite sampling of growing plant roots through nanoporous interfaces by Patabadige, Damith E. W., Millet, Larry J., Aufrecht, Jayde A., Shankles, Peter G., Standaert, Robert F., Retterer, Scott T., Doktycz, Mitchel John

“…Spatial and temporal profiling of metabolites within and between living systems is vital to understanding how chemical signaling shapes the composition and…”
Get full text