Fabrication techniques to realize CMOS-compatible microfluidic microchannels

Abstract

With microfluidic systems becoming more prominent, fabrication techniques for microfluidic systems are increasingly more important. An interesting alternative to existing fabrication techniques is to embed fluidic systems within an integrated circuit by micromachining materials in the integrated circuit itself. This paper describes novel methods for fabricating one component in the complementary metal-oxide-semiconductor (CMOS) microfluidic system, the microchannel. These techniques allow direct integration of sensors, actuators, or other electronics with the microchannel. This method expands the functional applications for microfluidic systems beyond their current abilities. By utilizing the methods described within this paper, a complete "smart" microfluidic system could be batch fabricated on a single integrated circuit (IC) chip.