UNIVERSITY OF VIRGINIA
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Previous Research
Centrifugal Microdevices
>
PET Chips
Clinical Diagnostics and Forensic Analysis
>
Cell Sorting and Solid Phase Extraction
>
Acoustic Differential Extraction
Isolation of Circulating Tumor Cells
Enhanced Sperm Cell Recovery
Monolith Stationary Phase for Microfluidic DNA Purification
Nucleic Acid Purification in a Two-Stage, Dual-Phase Microchip
Large Volume Reduction Solid Phase Extraction
Plastic SPE Microdevices
Polymerase Chain Reaction (PCR)
>
Infrared PCR
Microwave PCR
Label-Free Optical Methods for DNA and Cell Quantification
DNA Extraction and PCR Amplification
Fluidic Control
>
Passive Valving
Genetic Analysis
>
A Fully Integrated Microfluidic Genetic Analysis Device for the Detection of Blood Cancers
Electric Field-Flow Fractionation for DNA Concentration
Acousto-Optic Tunable Fiber
Narcotics and Explosives Colorimetric Detection
People
Publications
Collaborators
Contact
Conferences
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Home
Previous Research
Centrifugal Microdevices
>
PET Chips
Clinical Diagnostics and Forensic Analysis
>
Cell Sorting and Solid Phase Extraction
>
Acoustic Differential Extraction
Isolation of Circulating Tumor Cells
Enhanced Sperm Cell Recovery
Monolith Stationary Phase for Microfluidic DNA Purification
Nucleic Acid Purification in a Two-Stage, Dual-Phase Microchip
Large Volume Reduction Solid Phase Extraction
Plastic SPE Microdevices
Polymerase Chain Reaction (PCR)
>
Infrared PCR
Microwave PCR
Label-Free Optical Methods for DNA and Cell Quantification
DNA Extraction and PCR Amplification
Fluidic Control
>
Passive Valving
Genetic Analysis
>
A Fully Integrated Microfluidic Genetic Analysis Device for the Detection of Blood Cancers
Electric Field-Flow Fractionation for DNA Concentration
Acousto-Optic Tunable Fiber
Narcotics and Explosives Colorimetric Detection
People
Publications
Collaborators
Contact
Conferences