Company Filing History:
Years Active: 2015
Title: Scott Potenta: Innovator in Microfluidic Systems
Introduction
Scott Potenta is a notable inventor based in Boston, MA, who has made significant contributions to the field of microfluidics. His innovative work focuses on the development of valves and reservoirs that enhance the functionality of microfluidic systems. With one patent to his name, Potenta's inventions are paving the way for advancements in fluid control technology.
Latest Patents
Scott Potenta holds a patent for "Valves and reservoirs for microfluidic systems." This microfluidic valve assembly includes a structure that defines a microfluidic fluid path and an actuator that can be moved between different positions to control the flow through the channel. In one embodiment, the actuator can be threaded into at least a portion of the structure and can be moved rotationally between a first position, which causes relatively greater constriction of the microfluidic fluid path, and a second position, which causes relatively lesser constriction. By actuating the actuator, such as through rotation, the material between the valve and the fluid path can be deformed, thereby regulating the flow of fluid in the path. Additionally, the invention provides a reservoir that can store fluid under pressure for delivery to a microfluidic system.
Career Highlights
Scott Potenta is affiliated with Harvard College, where he continues to engage in research and development in the field of microfluidics. His work is characterized by a commitment to innovation and the advancement of technology that can have practical applications in various industries.
Collaborations
Scott Potenta has collaborated with notable colleagues, including Douglas Benjamin Weibel and Andrew Lee. These collaborations have contributed to the development of cutting-edge technologies in microfluidic systems.
Conclusion
Scott Potenta is an influential inventor whose work in microfluidic systems is shaping the future of fluid control technology. His patent for valves and reservoirs demonstrates his innovative approach to solving complex challenges in this field.