Company Filing History:
Years Active: 1999
Title: M Diane Zebert: Innovator in Chemical Sensing Technology
Introduction
M Diane Zebert, based in Seattle, WA, is a prominent inventor recognized for her innovative contributions to the field of chemical sensing technology. She holds a patent for a microfabricated diffusion-based chemical sensor, which showcases the potential of her work in detecting analyte particles in various applications.
Latest Patents
M Diane Zebert's patent, titled "Microfabricated diffusion-based chemical sensor," comprises a sophisticated channel-cell system designed to detect the presence and quantify analyte particles in a sample stream. The system includes a laminar flow channel with two inlets that facilitate the introduction of an indicator stream and a sample stream. This design ensures that the laminar flow allows for effective diffusion of smaller analyte particles into the indicator stream while excluding larger particles, thus forming a detection area. The innovation represents a significant advancement in detection technology, contributing to fields such as environmental monitoring and medical diagnostics.
Career Highlights
M Diane Zebert is associated with the University of Washington, where she has made substantial contributions to research and development in chemical sensing. Her work demonstrates a commitment to pushing the boundaries of understanding in microfabrication and chemical detection, positioning her as a notable figure in her field.
Collaborations
Throughout her career, M Diane Zebert has collaborated with esteemed colleagues such as Bernhard Hans Weigl and Paul Yager. These partnerships have enriched her research, fostering innovation through the exchange of ideas and expertise among distinguished professionals.
Conclusion
M Diane Zebert's innovative approaches and her patented technologies signify her impact on the realm of chemical sensing. As she continues her work at the University of Washington, her contributions inspire future advancements in sensor technologies that promise to enhance various scientific and practical applications.