R. Thomas, M. Holton, A. Sobiesierski, S. Gillgrass, H. Summers, D. Barrow, P. Smowton
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Integrated III–V semiconductor flow cytometer with capillary fill micro-fluidics
The potential of the device is demonstrated through the results of a micro-bead counting experiment. A 0.5 μl sample volume containing 10 μm polystyrene micro-beads in Dl water is deposited into an on-chip inlet reservoir from where it flows, under capillary action, through a buried flow cell. A laser on one side of the cell is forward biased and the opposing laser is operated as a photodiode. Both are pulsed to provide sub-μs time-resolution of bead transit `events' with a 30 mV noise floor that affords a large dynamic range of over 1.2 V. After passing through the flow cell the sample fluid is drawn into a spiral patterned exit reservoir that provides sufficient pull through to sustain a continuous flow for over 30 s with flow rate of > 4mm/s.
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