Company Filing History:
Years Active: 2014-2017
Title: Innovations by Keith Mitchelson in Cell-Impedance Sensors
Introduction
Keith Mitchelson is an accomplished inventor based in Beijing, China. He has made significant contributions to the field of cell-impedance sensors, with a focus on systems and methods for detecting chemical and biological samples, including biological cells. His innovative work has led to the development of two notable patents.
Latest Patents
Mitchelson's latest patents include advanced designs for cell-impedance sensors. The first patent outlines systems, apparatus, and methods for designing and operating a cell-electrode impedance sensor. This sensor is capable of detecting chemical and biological samples, including biological cells. The design process involves determining both cell-free and cell-covered cell-electrode impedances based on a design model. This model considers various factors, including the properties and elements of the measurement system. The goal is to maximize sensor sensitivity by selecting optimal design parameters. The second patent focuses on methods and apparatus for measuring cell-electrode impedance. It similarly emphasizes the importance of determining cell-free and cell-covered impedances and optimizing sensor sensitivity, particularly when the frequency of the AC signal between electrodes ranges from 10 kHz to 40 kHz.
Career Highlights
Keith Mitchelson is currently employed at Capitalbio Corporation, where he continues to innovate in the field of biosensors. His work has garnered attention for its potential applications in medical diagnostics and biological research.
Collaborations
Mitchelson collaborates with talented coworkers, including Lei Wang and He Wang, who contribute to the development and refinement of his inventions.
Conclusion
Keith Mitchelson's contributions to the field of cell-impedance sensors demonstrate his commitment to advancing technology in detecting biological samples. His innovative patents reflect a deep understanding of sensor design and measurement techniques.