Nolan A. Polson scite author profile

A small-volume heterogeneous immunoassay system is demonstrated in microchannels exploiting magnetic manipulations of small paramagnetic particles (1-2-microm diameter). The small-diameter particles help to create a high surface-area-to-volume ratio that generates the sensitivity for the small detection volumes. Flow characteristics of the magnetically formed packed bed within the channel allow the assay to be carried out quickly (minutes) while passing appropriate volumes of both samples and reagents (microliters to hundreds of nanoliters) through the system. The assay is demonstrated with a direct interaction of fluorescein isothiocyanate (FITC) with an immobilized anti-FITC conjugate in which a small-volume sample (< 1 microL) reaches 90% of maximum signal in 3 min. Heterogeneous sandwich assays are demonstrated with parathyroid hormone (PTH) and interleukin-5 (IL-5). Both the PTH assay and IL-5 assays were carried out on microliter volumes and demonstrated physiologically relevant sensitivity (approximately microg/L).

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Electroosmotic Flow Control of Fluids on a Capillary Electrophoresis Microdevice Using an Applied External Voltage

Polson

Hayes

2000

Anal. Chem.

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Independent control of electroosmosis is important for separation science techniques such as capillary zone electrophoresis and for the movement of fluids on microdevices. A capillary electrophoresis microdevice is demonstrated which provides more efficient control of electroosmosis with an applied external voltage field. The device is fabricated in a glass substrate where a 5.0 cm separation channel (30 microm wide) is paralleled with two embedded electrodes positioned 50 microm away in the substrate. With this structure, greatly reduced applied external potentials (< or = 120 V compared to tens of kilovolts) still effectively altered electroosmosis. The efficiency for the control of electroosmosis by the applied external field is improved by approximately 40 times over published values.

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Active Control of Dynamic Supraparticle Structures in Microchannels

2001

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Paramagnetic particles in microchannels form dynamic and reversible self-assembled regularly spaced structures when exposed to an external magnetic field. The magnetically induced micron-scale patterns can be formed and reformed spontaneously, thus providing an alternative to traditional microfabrication techniques for pattern creation. Under the influence of a varying magnetic field, these structures could be rotated through all axes without loss of structural form allowing dynamic micron-scale movement without direct mechanical, electrical, or photonic interactions. The structures are not attached to the wall of the enclosure and are free to move without loss of form from both pressure-induced flow and electrokinetic effects. The dynamic supraparticle patterning can be used in an extensive variety of on-chip applications and for unique microfabrication techniques.

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Peer Reviewed: Microfluidics: Controlling Fluids in Small Places

Polson

Hayes²

2001

Anal. Chem.

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Electrophoretic focusing preconcentration technique using a continuous buffer system for capillary electrophoresis

2000

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Nolan A. Polson

Flow-Based Microimmunoassay

Electroosmotic Flow Control of Fluids on a Capillary Electrophoresis Microdevice Using an Applied External Voltage

Active Control of Dynamic Supraparticle Structures in Microchannels

Peer Reviewed: Microfluidics: Controlling Fluids in Small Places

Electrophoretic focusing preconcentration technique using a continuous buffer system for capillary electrophoresis

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