Company Filing History:
Years Active: 2002-2003
Title: Innovations by Paul Lituri in Magnetic Separation Technology
Introduction
Paul Lituri is an accomplished inventor based in Milford, NH (US), known for his contributions to the field of magnetic separation technology. With a total of two patents to his name, Lituri has developed innovative methods that enhance the efficiency of separating magnetized substances from solutions.
Latest Patents
Lituri's latest patents include a "Method for separating magnetized substances from a solution" and a "Magnetic cell separation device." The method involves placing a vessel containing a solution with magnetized substances into a magnetic device. The solution is incubated for a sufficient period, allowing the magnetized substances to migrate radially toward the vessel's interior wall. A sample taken from the center of the vessel would contain non-magnetized particles. The magnetic device consists of four polar magnets and several interpolar magnets positioned to create an even flux within the solution, facilitating the radial movement of the magnetized substances. The magnetic cell separation device similarly employs four polar magnets and interpolar magnets to achieve an even flux, promoting the radial movement of magnetized particles toward the inner wall of the surrounding magnets.
Career Highlights
Lituri's career is marked by his innovative approach to magnetic separation technology. His work has significantly advanced the capabilities of magnetic devices in various applications, showcasing his expertise in this specialized field.
Collaborations
Throughout his career, Lituri has collaborated with notable colleagues, including Martin D. Sterman and Richard E. Stelter. These collaborations have contributed to the development and refinement of his patented technologies.
Conclusion
Paul Lituri's contributions to magnetic separation technology through his patents reflect his innovative spirit and dedication to advancing scientific methods. His work continues to influence the field and demonstrates the potential of magnetic devices in various applications.