Anthony Jose Kearsley

Title: The Innovations of Anthony Jose Kearsley

Introduction

Anthony Jose Kearsley is a notable inventor based in Hanover, MD (US). He has made significant contributions to the field of flow cytometry and photometry, holding a total of 3 patents. His work focuses on developing advanced devices that enhance the measurement and analysis of particles in fluid samples.

Latest Patents

Kearsley's latest patents include a serial flow cytometer, which is designed to measure single particles in flow multiple times along a microchannel. This device integrates waveguides that carry optical signals to and from measurement regions. It allows for multiple measurements of particles, such as microspheres or cells, traveling through a microfluidic channel. This innovation achieves lower uncertainties and can discriminate complex samples while accounting for various sources of uncertainty related to the shape, deformability, stability, or activity of objects in a liquid sample.

Another significant patent is the multiplexed amplitude modulation photometer, which includes a microchannel and multiple input light paths. This device receives modulated light at different frequencies and communicates it to optical regions that analyze various analytes. The photometer enhances the detection of output light, allowing for more precise measurements in complex fluid samples.

Career Highlights

Kearsley is currently employed by the Government of the United States of America, as represented by the Secretary of Commerce. His work has been instrumental in advancing technologies that improve the accuracy and efficiency of particle analysis in various scientific fields.

Collaborations

Throughout his career, Kearsley has collaborated with notable colleagues, including Gregory Alan Cooksey and Paul Nathan Patrone. These partnerships have contributed to the development of innovative technologies and have fostered a collaborative environment for research and development.

Conclusion

Anthony Jose Kearsley is a distinguished inventor whose work in flow cytometry and photometry has led to significant advancements in particle measurement technologies. His contributions continue to impact the scientific community and enhance the understanding of complex fluid samples.