MTL Seminar Series

Miniaturizing 3D Printed Microfluidics: Materials, Tools, and Trends

November 10, 2021 - 12:00pm

Location: RLE Combined (36-462 and 36-428)
Speaker: Greg Nordin, BYU

Bio: Dr. Greg Nordin did his PhD in Electrical Engineering at the University of Southern California after earning BS and MS degrees in physics at BYU and UCLA. He is a Professor of Electrical & Computer Engineering at Brigham Young University with research focused on 3D printing for microfluidics.

Abstract: While there is great interest in 3D printing for microfluidic device fabrication, the challenge has been to achieve feature sizes that are in the truly microfluidic regime (<100 μm). The fundamental problem is that commercial tools and materials, which excel in many other application areas, have not been developed to address the unique needs of microfluidic device fabrication. Consequently, we have created our own stereolithographic 3D printer and materials that are specifically tailored to meet these needs. We have shown that flow channels as small as 18 μm x 20 μm can be reliably fabricated, as well as compact active elements such as valves and pumps. With these capabilities, we demonstrate highly integrated 3D printed microfluidic devices such as a 10-stage 2-fold serial dilutor that simultaneously creates a 3 order of magnitude range of concentrations, and high density chip-to-chip interconnects (53 interconnects per square mm) that are directly 3D printed as part of a device chip. These advances open the door to 3D printing as a replacement for expensive cleanroom fabrication processes, with the additional advantage of fast (~15 minute), parallel fabrication of many devices in a single print run due to their small size.