Company Filing History:
Years Active: 2023-2025
Title: Jeffrey T Abbott: Innovator in Electrochemical Mapping and Cell Assessment
Introduction
Jeffrey T Abbott is a prominent inventor based in Cambridge, MA (US). He has made significant contributions to the field of biomedical engineering, particularly in the areas of electrochemical mapping and cell assessment. With a total of 7 patents to his name, Abbott's work is at the forefront of innovative technologies that enhance our understanding of cellular behavior.
Latest Patents
One of Abbott's latest patents is titled "Systems and methods for patterning and spatial electrochemical mapping of cells." This invention discloses an apparatus for electrically assessing and manipulating cells. It includes methods for electrically mapping cells on a semiconductor substrate through cross-electrode impedance measurements. The electrode array allows for spatially addressable electrical stimulation and real-time recording of electrical signals using CMOS circuitry. Another notable patent is the "Complementary metal-oxide-semiconductor (CMOS) multi-well apparatus for electrical cell assessment." This patent describes semiconductor devices that provide a CMOS-compatible, wafer-scale, multi-well platform for biomedical applications. The design allows for efficient interfacing with electrodes in a large array, potentially lowering production costs through standard CMOS fabrication processes.
Career Highlights
Jeffrey T Abbott is affiliated with Harvard College, where he continues to advance research in his field. His innovative work has garnered attention and respect within the scientific community, contributing to the development of new technologies that can be applied in various biomedical contexts.
Collaborations
Abbott has collaborated with notable researchers such as Hongkun Park and Donhee Ham. These partnerships have further enriched his research endeavors and have led to advancements in the technologies he develops.
Conclusion
Jeffrey T Abbott is a distinguished inventor whose work in electrochemical mapping and cell assessment is paving the way for future innovations in biomedical engineering. His contributions are not only significant but also essential for the advancement of technologies that can improve our understanding of cellular functions.