Company Filing History:
Years Active: 2000
Title: The Innovative Mind of Daniel P. Kirby
Introduction
Daniel P. Kirby, based in Milton, MA, has made significant contributions to the field of analytical chemistry through his innovative inventions. With a keen focus on improving mass spectrometry techniques, Kirby holds a unique patent that enhances the efficiency of sample delivery in subatmospheric conditions.
Latest Patents
Daniel P. Kirby's notable patent is for a "Subatmospheric, variable pressure sample delivery chamber." This device serves as an electrospray ionization tool, providing a means to introduce samples into a mass spectrometer or directly deliver them to a collection device at subatmospheric pressures. The chamber is designed to operate effectively within a pressure range of 1 to 750 Torr, with an optimal performance range between 50 and 700 Torr. The design includes an inlet port for gas introduction and an exit port that can be connected to either an analytical device or a pump for gas removal. The sophisticated sample delivery device enables accurate sample transfer with precision alignment for analysis or collection.
Career Highlights
Daniel P. Kirby is affiliated with Northeastern University, where he has dedicated his work to advancing the scientific community's understanding of mass spectrometry and related technologies. His innovative approach has led to a successful patent that is invaluable for research and industry applications.
Collaborations
Throughout his career, Kirby has had the opportunity to collaborate with esteemed colleagues like Barry L. Karger and Frantisek Foret. These partnerships have fostered a conducive environment for innovation and have played a significant role in the development of cutting-edge technologies in analytical chemistry.
Conclusion
Daniel P. Kirby exemplifies the spirit of innovation within the scientific community. With his patent for a subatmospheric sample delivery chamber, he continues to contribute to the field of analytical chemistry. His collaborations and work at Northeastern University ensure that advancements in mass spectrometry technology will persist, paving the way for future discoveries and innovations.