Issue 2, 2016

Multilevel fluidic flow control in a rotationally-driven polyester film microdevice created using laser print, cut and laminate

Abstract

This paper presents a simple and cost-effective polyester toner microchip fabricated with laser print and cut lithography (PCL) to use with a battery-powered centrifugal platform for fluid handling. The combination of the PCL microfluidic disc and centrifugal platform: (1) allows parallel aliquoting of two different reagents of four different volumes ranging from nL to μL with an accuracy comparable to a piston-driven air pipette; (2) incorporates a reciprocating mixing unit driven by a surface-tension pump for further dilution of reagents, and (3) is amenable to larger scale integration of assay multiplexing (including all valves and mixers) without substantially increasing fabrication cost and time. For a proof of principle, a 10 min colorimetric assay for the quantitation of the protein level in the human blood plasma samples is demonstrated on chip with a limit of detection of ∼5 mg mL−1 and coefficient of variance of ∼7%.

Graphical abstract: Multilevel fluidic flow control in a rotationally-driven polyester film microdevice created using laser print, cut and laminate

Article information

Article type
Paper
Submitted
28 Oct 2015
Accepted
04 Dec 2015
First published
16 Dec 2015

Lab Chip, 2016,16, 377-387

Author version available

Multilevel fluidic flow control in a rotationally-driven polyester film microdevice created using laser print, cut and laminate

Y. Ouyang, J. Li, C. Phaneuf, P. S. Riehl, C. Forest, M. Begley, D. M. Haverstick and J. P. Landers, Lab Chip, 2016, 16, 377 DOI: 10.1039/C5LC01332A

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