Company Filing History:
Years Active: 1992
Title: The Innovations of Richard D. McLane: Advancing Mass Spectrometry
Introduction
Richard D. McLane, an esteemed inventor based in Lansing, MI, has made remarkable contributions to the field of mass spectrometry. With a patent to his name, he demonstrates a commitment to advancing analytical techniques and providing innovative solutions to complex scientific problems.
Latest Patents
One of Richard D. McLane's key inventions is titled "Time-compressed chromatography in mass spectrometry." This groundbreaking process and apparatus utilize the time compression of chromatography within mass spectrometry, integrating array detection to enhance the analytical capabilities. The innovation involves deconvoluting the time-compressed information through mathematical analysis, allowing the recovery of analytical information that would otherwise be inaccessible due to time compression. This advancement significantly decreases analysis time while improving component identification without sacrificing sensitivity.
Career Highlights
Richard has dedicated his professional career to developing cutting-edge techniques in analytical chemistry. He is currently affiliated with Meridian Instruments, Inc., where he continues to push the boundaries of mass spectrometry technology. His patent has opened new avenues for researchers and companies seeking to optimize their analytical processes.
Collaborations
Throughout his career, Richard D. McLane has collaborated with notable professionals in the field, including Christie G. Enke and John F. Holland. These collaborations have fortified the application of his inventions and contributed to advancements in the analytical chemistry community.
Conclusion
Richard D. McLane's contributions to the field of mass spectrometry exemplify the spirit of innovation and dedication to improving scientific methods. His patented techniques not only enhance analytical efficiency but also serve as a foundation for future research and development in mass spectrometry. As the field continues to evolve, Richard's works will undoubtedly leave a lasting impact.