Rapid fabrication of microchannels using microscale plasma activated templating (μPLAT) generated water molds

Shih Hui Chao; Robert Carlson; Deirdre R. Meldrum

doi:10.1039/b618269k

Rapid fabrication of microchannels using microscale plasma activated templating (μPLAT) generated water molds

Shih Hui Chao, Robert Carlson, Deirdre R. Meldrum

Research output: Contribution to journal › Article › peer-review

53 Scopus citations

Abstract

Poly(dimethylsiloxane) (PDMS) is a common material used in fabricating microfluidic devices. The predominant PDMS fabrication method, soft lithography, relies on photolithography for fabrication of micropatterned molds. In this technical note, we report an alternative molding technique using microscale PLasma Activated Templating (μPLAT). The use of photoresist in soft lithography is replaced by patterned water droplets created using μPLAT. When liquid PDMS encapsulates patterned water and then solidifies, the cavities occupied by water become structures such as microchannels. Using this method, device fabrication is less time consuming, more cost efficient and flexible, and ideal for rapid prototyping. An additional important feature of the water-molding process is that it yields structural profiles that are difficult to achieve using photolithography.

Original language	English (US)
Pages (from-to)	641-643
Number of pages	3
Journal	Lab on a Chip
Volume	7
Issue number	5
DOIs	https://doi.org/10.1039/b618269k
State	Published - Jan 1 2007
Externally published	Yes

ASJC Scopus subject areas

Bioengineering
Biochemistry
General Chemistry
Biomedical Engineering

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abstract = "Poly(dimethylsiloxane) (PDMS) is a common material used in fabricating microfluidic devices. The predominant PDMS fabrication method, soft lithography, relies on photolithography for fabrication of micropatterned molds. In this technical note, we report an alternative molding technique using microscale PLasma Activated Templating (μPLAT). The use of photoresist in soft lithography is replaced by patterned water droplets created using μPLAT. When liquid PDMS encapsulates patterned water and then solidifies, the cavities occupied by water become structures such as microchannels. Using this method, device fabrication is less time consuming, more cost efficient and flexible, and ideal for rapid prototyping. An additional important feature of the water-molding process is that it yields structural profiles that are difficult to achieve using photolithography.",

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AB - Poly(dimethylsiloxane) (PDMS) is a common material used in fabricating microfluidic devices. The predominant PDMS fabrication method, soft lithography, relies on photolithography for fabrication of micropatterned molds. In this technical note, we report an alternative molding technique using microscale PLasma Activated Templating (μPLAT). The use of photoresist in soft lithography is replaced by patterned water droplets created using μPLAT. When liquid PDMS encapsulates patterned water and then solidifies, the cavities occupied by water become structures such as microchannels. Using this method, device fabrication is less time consuming, more cost efficient and flexible, and ideal for rapid prototyping. An additional important feature of the water-molding process is that it yields structural profiles that are difficult to achieve using photolithography.

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Rapid fabrication of microchannels using microscale plasma activated templating (μPLAT) generated water molds

Abstract

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