Company Filing History:
Years Active: 2013
Title: The Innovative Work of Inventor Jian Pei
Introduction
Jian Pei, an accomplished inventor hailing from Agoura Hills, CA, has made significant contributions to the field of chemical analysis through his inventive methodologies. With a single patented invention, Pei's work focuses on advancing the techniques used in analyzing discrete samples in droplet format, revealing a penchant for innovation in microfluidics.
Latest Patents
Jian Pei holds a patent for "Electrospray and nanospray ionization of discrete samples in droplet format." This invention explores the use of droplets or plugs within multiphase microfluidic systems to manipulate samples and conduct chemical reactions on the femtoliter to microliter scale. His research has shown that nanoliter plugs of samples separated by air or oil can be efficiently analyzed using electrospray ionization mass spectrometry. Notably, the detection limits achieved are at 1 nM, with an impressive sample analysis rate of 0.8 Hz.
Career Highlights
Pei’s expertise has placed him within the academic realm at the University of Michigan, where he continues to pursue his research interests and contribute to scientific advancement. The robustness of his patented method allows for rapid and information-rich chemical analysis, significantly pushing the boundaries of existing methods in segmented flow systems.
Collaborations
Throughout his career, Jian Pei has collaborated with esteemed colleagues, including Robert T. Kennedy and Qiang Li. These collaborations have enhanced his innovative endeavors, fostering a productive environment that combines knowledge and expertise to tackle complex challenges in chemical analysis.
Conclusion
As an inventor, Jian Pei exemplifies dedication to innovation and scientific progress. His contributions, particularly in the field of electrospray ionization mass spectrometry, illustrate the potential impact of his research on chemical analysis, paving the way for advancements in the manipulation and understanding of samples at the microscale level.