Company Filing History:
Years Active: 2015-2020
Title: Nathan Michael Gaskill-Fox: Innovator in Flow Cytometry Technology
Introduction
Nathan Michael Gaskill-Fox is a prominent inventor based in Fort Collins, CO (US). He has made significant contributions to the field of flow cytometry, holding a total of 12 patents. His innovative work focuses on enhancing the efficiency and effectiveness of fluid delivery systems.
Latest Patents
One of his latest patents is the "Flow rate balanced, dynamically adjustable sheath delivery system for flow cytometry." This invention discloses a sheath delivery system that utilizes a continuous flow of sheath fluid into a pressurized internal reservoir, which matches the outflow of sheath fluid through the nozzle of a flow cytometer. The system maintains a substantially constant level of sheath fluid, employing a dampened control system to adjust the fluid level as needed. Additionally, it allows for the external sheath container to be removed and refilled without interrupting the delivery system, thanks to controlled air pressure in the internal container. Another notable patent is the "Continuous sample delivery peristaltic pump," which provides methods and systems for efficiently pumping fluid through tubing. This invention involves orbiting rollers that compress the tubing to increase fluid pressure, ensuring a consistent and effective fluid delivery process.
Career Highlights
Nathan currently works at Bio-Rad Laboratories, Inc., where he continues to develop innovative solutions in the field of biotechnology. His work has significantly impacted the efficiency of flow cytometry, making it easier for researchers to conduct experiments and analyze samples.
Collaborations
Nathan collaborates with talented individuals such as Daniel Nelson Fox and Kevin P Raley, contributing to a dynamic and innovative work environment.
Conclusion
Nathan Michael Gaskill-Fox is a key figure in the advancement of flow cytometry technology, with a strong portfolio of patents that reflect his dedication to innovation. His contributions continue to shape the future of fluid delivery systems in scientific research.