Company Filing History:
Years Active: 2013
Title: Mark Lowry: Innovator in Fluorescent Xanthenes
Introduction
Mark Lowry is a prominent inventor based in Baton Rouge, LA (US). He has made significant contributions to the field of fluorescent compounds, particularly through his innovative work on xanthenes. His research has implications for various applications, including biological imaging and display technologies.
Latest Patents
Mark Lowry holds a patent for "Fluorescent xanthenes and white light fluorophores." This patent discloses xanthene compounds that exhibit fluorescence at multiple wavelengths. The compounds are notable for their ability to emit white light and have applications in imaging biological tissues, illumination, and display technologies. Many of these compounds possess large Stokes shifts and are resistant to photobleaching. Their fluorescence can be easily distinguished from that of endogenous fluorophores and most commercially available fluorescent probes. The compounds are particularly well-suited for multiplexing techniques, exhibiting clear isosbestic and isoemissive points, along with broad absorption and emission ranges. Mark Lowry's patent represents a significant advancement in the field of fluorescent materials.
Career Highlights
Mark Lowry is affiliated with Louisiana State University and Agricultural & Mechanical College, where he continues to engage in research and development. His work has garnered attention for its innovative approach to creating new fluorescent compounds that enhance imaging and display technologies.
Collaborations
Throughout his career, Mark Lowry has collaborated with notable colleagues, including Robert Michael Strongin and Isiah Manuel Warner. These collaborations have contributed to the advancement of research in the field of fluorescence and its applications.
Conclusion
Mark Lowry's contributions to the field of fluorescent xanthenes have paved the way for new technologies in biological imaging and display systems. His innovative work continues to influence the scientific community and enhance our understanding of fluorescent materials.