Issue 23, 2014

A multi-scale PDMS fabrication strategy to bridge the size mismatch between integrated circuits and microfluidics

Abstract

In recent years there has been great progress harnessing the small-feature size and programmability of integrated circuits (ICs) for biological applications, by building microfluidics directly on top of ICs. However, a major hurdle to the further development of this technology is the inherent size-mismatch between ICs (~mm) and microfluidic chips (~cm). Increasing the area of the ICs to match the size of the microfluidic chip, as has often been done in previous studies, leads to a waste of valuable space on the IC and an increase in fabrication cost (>100×). To address this challenge, we have developed a three dimensional PDMS chip that can straddle multiple length scales of hybrid IC/microfluidic chips. This approach allows millimeter-scale ICs, with no post-processing, to be integrated into a centimeter-sized PDMS chip. To fabricate this PDMS chip we use a combination of soft-lithography and laser micromachining. Soft lithography was used to define micrometer-scale fluid channels directly on the surface of the IC, allowing fluid to be controlled with high accuracy and brought into close proximity to sensors for highly sensitive measurements. Laser micromachining was used to create ~50 μm vias to connect these molded PDMS channels to a larger PDMS chip, which can connect multiple ICs and house fluid connections to the outside world. To demonstrate the utility of this approach, we built and demonstrated an in-flow magnetic cytometer that consisted of a 5 × 5 cm2 microfluidic chip that incorporated a commercial 565 × 1145 μm2 IC with a GMR sensing circuit. We additionally demonstrated the modularity of this approach by building a chip that incorporated two of these GMR chips connected in series.

Graphical abstract: A multi-scale PDMS fabrication strategy to bridge the size mismatch between integrated circuits and microfluidics

Article information

Article type
Paper
Submitted
24 Jul 2014
Accepted
22 Sep 2014
First published
29 Sep 2014

Lab Chip, 2014,14, 4552-4558

Author version available

A multi-scale PDMS fabrication strategy to bridge the size mismatch between integrated circuits and microfluidics

M. Muluneh and D. Issadore, Lab Chip, 2014, 14, 4552 DOI: 10.1039/C4LC00869C

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