Company Filing History:
Years Active: 2005
Title: Michael Robert Gluszcak: Innovator in Microfluidic Technology
Introduction
Michael Robert Gluszcak is an accomplished inventor based in San Jose, CA. He has made significant contributions to the field of microfluidics, particularly through his innovative patent that enhances material excitation in microfluidic devices. His work exemplifies the intersection of engineering and applied science, showcasing the potential for advancements in this rapidly evolving area.
Latest Patents
One of Gluszcak's notable patents is titled "Submersible light-directing member for material excitation in microfluidic devices." This invention describes a system that resembles a submerged periscope, allowing for the redirection of light along advantageous trajectories. The design incorporates a prism with a reflecting surface to direct a laser beam through microfluidic trenches or channels. Additionally, the invention includes provisions for the submersible to function as an electrode, assisting in the electrokinetic movement of fluids and ions within the device. Gluszcak holds 1 patent for this innovative technology.
Career Highlights
Michael Robert Gluszcak is currently employed at Aclara Biosciences, Inc., where he continues to develop cutting-edge solutions in the field of microfluidics. His expertise and innovative mindset have positioned him as a valuable asset to the company and the industry at large.
Collaborations
Throughout his career, Gluszcak has collaborated with talented professionals, including Torleif Ove Bjornson and Kevin Albert Maher. These partnerships have fostered a creative environment that encourages the exchange of ideas and the development of groundbreaking technologies.
Conclusion
Michael Robert Gluszcak is a prominent figure in the realm of microfluidic technology, with a focus on enhancing material excitation through innovative designs. His contributions, particularly his patented invention, demonstrate his commitment to advancing the field and improving the functionality of microfluidic devices.