Company Filing History:
Years Active: 2019-2021
Title: Innovations of James Trauba in Microfluidic Technology
Introduction
James Trauba is an accomplished inventor based in Salt Lake City, Utah. He has made significant contributions to the field of microfluidics, particularly in the development of devices for rapid polymerase chain reaction (PCR) processes. With a total of two patents to his name, Trauba's work is at the forefront of innovative technologies that enhance laboratory efficiency.
Latest Patents
Trauba's latest patents include a micro-fluidic device for rapid PCR and thermal gradient plug flow microfluidic devices for extreme PCR. The first patent describes systems and devices capable of providing rapid polymerase chain reaction processes. This microfluidic card is designed to be inserted into a heating assembly that provides separate temperature zones. The card features a channel array that traverses repeatedly through these zones, allowing a reaction mixture to undergo thermal cycling efficiently. The second patent focuses on a microfluidic device that includes a temperature regulator to generate a temperature gradient across a thermally controlled portion. This device features a bi-directional microfluidic serpentine pathway that facilitates oscillation of fluid between high and low temperature regions, enhancing the PCR process.
Career Highlights
James Trauba is affiliated with the University of Utah Research Foundation, where he continues to innovate and develop new technologies. His work has been instrumental in advancing the capabilities of microfluidic devices, which are essential in various scientific applications.
Collaborations
Trauba has collaborated with notable colleagues, including Raheel Samuel and Bruce Kent Gale. These partnerships have contributed to the successful development of his patented technologies.
Conclusion
James Trauba's contributions to microfluidic technology exemplify the impact of innovative thinking in scientific research. His patents reflect a commitment to enhancing laboratory processes and improving efficiency in PCR applications.