Company Filing History:
Years Active: 2018
Title: Innovations by Noah Jonathan Tremblay
Introduction
Noah Jonathan Tremblay is an accomplished inventor based in Towson, MD (US). She has made significant contributions to the field of electronic devices, particularly in fluid detection technologies. Her innovative work has led to the development of a unique patent that showcases her expertise and creativity.
Latest Patents
Noah holds a patent for "Circuits, devices and sensors for fluid detection." This electronic device features a first field effect transistor with a first gate electrode, drain electrode, and source electrode. It also includes a second field effect transistor with similar components. The design allows for the first and second gate electrodes to be electrically connected or integral, as well as the source electrodes. An input electrode connects to the gate electrodes, while an output electrode connects to the source electrodes. The first field effect transistor utilizes a first semiconductor material, and the second field effect transistor employs a second semiconductor material. Notably, at least one of these semiconductor materials has a surface that can be exposed to a fluid, altering its electrical properties when in contact with the fluid. This innovative approach enhances the capabilities of fluid detection technologies.
Career Highlights
Noah is currently affiliated with The Johns Hopkins University, where she continues to advance her research and development efforts. Her work at this prestigious institution allows her to collaborate with leading experts in the field and contribute to groundbreaking innovations.
Collaborations
Noah has worked alongside notable colleagues, including Howard Edan Katz and Patrick N Breysse. These collaborations have further enriched her research and expanded the impact of her inventions.
Conclusion
Noah Jonathan Tremblay is a pioneering inventor whose work in fluid detection technologies exemplifies innovation and creativity. Her contributions to the field are significant, and her patent reflects her dedication to advancing electronic device capabilities.