Company Filing History:
11 out of 998 
3 out of 5 Years Active: 2014-2023
Title: The Innovative Contributions of Brooks Hart Pate
Introduction
Brooks Hart Pate is a distinguished inventor based in Charlottesville, VA (US). He holds a total of 13 patents, showcasing his significant contributions to the field of science and technology. His work primarily focuses on the analysis of chiral molecules, which play a crucial role in various chemical and pharmaceutical applications.
Latest Patents
One of his latest patents is titled "Cavity-enhanced Fourier transform spectroscopy for chiral analysis." This innovative technology allows for the analysis of chiral molecules, which are defined as molecules that have non-superimposable mirror images known as enantiomers. These enantiomers typically possess the same bond lengths and angles in their three-dimensional structure. The apparatus and techniques described in this patent utilize cavity-enhanced molecular rotational spectroscopy to perform detailed analyses of chiral molecules. A sample cell is designed to define a resonant cavity, while a sample introduction port enables pulse-jet injection of an analyte molecule along with a chiral tag, facilitating the analysis of the complex formed by the analyte and the chiral tag.
Career Highlights
Brooks Hart Pate has made significant strides in his career, working with reputable institutions such as the University of Virginia and Brightspec, Inc. His expertise in spectroscopy and molecular analysis has positioned him as a leading figure in his field.
Collaborations
Throughout his career, Brooks has collaborated with notable colleagues, including Justin L. Neill and Kevin K. Lehmann. These collaborations have further enhanced his research and development efforts in the realm of chiral analysis.
Conclusion
In summary, Brooks Hart Pate's innovative work in the field of chiral analysis and his numerous patents reflect his dedication to advancing scientific knowledge and technology. His contributions continue to impact various industries, particularly in the analysis of complex molecular structures.