

“These Acrylic 3D-printed prototypes are molds, subsequently used for PDMS microfabrication. PDMS microchambers are now broadly used for biology and biomedical applications. However, development of such microfabricated devices (often based on photolithography) can be a bottleneck as it requires costly equipment and long process cycles. Acrylic 3D printing allows rapid prototyping of microfluidic assay for moderate price. In particular, the mold shown here is used to make a PDMS microchamber for cancer cell growth in a controlled environment. MSKCC provides patient care and conducts cancer research.”
This project was partly funded by Potomac Photonics Educational Manufacturing Initiative which is a program, focused on creating robust partnerships with universities and research institutes in order to develop new products and manufacturing technologies.
In addition to fabricating molds, Potomac Photonics can hot emboss (replicate), bond, drill holes, and perform assembly and integration of electronics for microfluidic applications.
For over 30 years, Potomac Photonics has been a leader in microfabrication and small hole drilling. Potomac’s contract services span prototyping to production, helping clients develop miniature products and bring them to market. Using cutting-edge manufacturing technology, Potomac has been recognized by both commercial and government agencies for innovation in areas such as medical device, electronics, aerospace, and automotive manufacturing. Potomac’s high-tech facility, located at bwtech@UMBC Research and Technology Park , is ISO 9001 and ISO 13485 certified. Visit the website at www.potomac-laser.com

