In this report, we demonstrate a simple and low cost method that can be reproducibly used for fabrication of microfluidic devices in nitrocellulose. The fluidic patterns are created via a laser-based direct-write technique that induces polymerisation of a photo-polymer previously impregnated in the nitrocellulose. The resulting structures form hydrophobic barriers that extend through the thickness of the nitrocellulose and define an interconnected hydrophilic fluidic-flow pattern. Our experimental results show that using this method it is possible to achieve microfluidic channels with lateral dimensions of ∼100 μm using hydrophobic barriers that form the channel walls with dimensions of ∼60 μm; both of these values are considerably smaller than those that can be achieved with other current techniques used in the fabrication of nitrocellulose-based fluidic devices. A simple grid patterned nitrocellulose device was then used for the detection of C-reactive protein via a sandwich enzyme-linked immunosorbent assay, which served as a useful proof-of-principle experiment.
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March 2015
Research Article|
April 29 2015
Laser-based patterning for fluidic devices in nitrocellulose
Peijun J. W. He
;
Peijun J. W. He
a)
Optoelectronics Research Centre,
University of Southampton
, Highfield, Southampton SO17 1BJ, United Kingdom
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Ioannis N. Katis;
Ioannis N. Katis
Optoelectronics Research Centre,
University of Southampton
, Highfield, Southampton SO17 1BJ, United Kingdom
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Robert W. Eason;
Robert W. Eason
Optoelectronics Research Centre,
University of Southampton
, Highfield, Southampton SO17 1BJ, United Kingdom
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Collin L. Sones
Collin L. Sones
Optoelectronics Research Centre,
University of Southampton
, Highfield, Southampton SO17 1BJ, United Kingdom
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a)
E-mail: ph3e12@soton.ac.uk. Tel.: 44 2380 599091
Biomicrofluidics 9, 026503 (2015)
Article history
Received:
January 30 2015
Accepted:
April 21 2015
Citation
Peijun J. W. He, Ioannis N. Katis, Robert W. Eason, Collin L. Sones; Laser-based patterning for fluidic devices in nitrocellulose. Biomicrofluidics 1 March 2015; 9 (2): 026503. https://doi.org/10.1063/1.4919629
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