Location History:
- Cambridge, MA (US) (2015 - 2022)
- Ann Arbor, MI (US) (2016 - 2023)
Company Filing History:
Years Active: 2015-2023
Title: The Innovative Mind of Stephen P. Lee
Introduction
Stephen P. Lee is an inventive force hailing from Cambridge, MA. He holds an impressive total of 14 patents, showcasing his commitment to advancing technology in the field of biofluid analysis and wearable health devices.
Latest Patents
Among his latest innovations are two significant patents that highlight his expertise in wearable technology. The first is a "Wearable Biofluid Volume and Composition Measurement System," which features a microfluidic flexible fluid capture substrate designed to collect and analyze sweat from the human body. This innovative system includes conductive traces and electrodes that work in tandem with an electronic module to measure biofluid data and transmit the analyzed information to a smart device.
The second patent is for a "Wearable Fluidic System for Measuring Sweat Composition." This device incorporates a flexible body with a sweat channel that includes a biochemical assay well filled with an assay material. This material reacts with the sweat collected and provides either a visual indicator or an indication detectable by a connected camera and processor, demonstrating the flow of sweat in the system.
Career Highlights
Stephen P. Lee has made significant contributions through his work at notable companies, including Mc10, Inc. and Epicore Biosystems, Inc. These collaborations have allowed him to harness his inventive spirit and contribute to cutting-edge advancements in health technology.
Collaborations
Throughout his career, Lee has worked alongside talented individuals, including his coworkers Roozbeh Ghaffari and Lauren E. Klinker. Together, they have driven innovation in wearable health technology and contributed to the broader field of biomedical engineering.
Conclusion
Stephen P. Lee's inventive contributions and numerous patents reflect his dedication to improving health monitoring through technology. His work not only advances understanding in the field of biofluids but also sets the groundwork for future innovations in wearable systems that promote better health outcomes.