Company Filing History:
Years Active: 2008-2023
Title: Innovations by James Thomas Sullivan in Microfluidic Technology
Introduction
James Thomas Sullivan, an accomplished inventor based in Cincinnati, OH, has made significant contributions to the field of microfluidics. With a total of three patents to his name, Sullivan's work has enhanced the understanding and application of fluid delivery systems. His latest inventions focus on improving microfluidic delivery devices, demonstrating his expertise and innovative spirit.
Latest Patents
One of Sullivan’s notable recent patents is for a microfluidic cartridge and microfluidic delivery device that incorporates advanced methods for dispensing fluid compositions. This invention describes a process that begins with generating an airflow from a fan. It involves directing the air through various outlets in a housing and jetting a fluid composition from a microfluidic die through a fluid orifice. The innovative design allows for enhanced control over the fluid's direction and delivery, optimizing its application and effectiveness in various scenarios.
Career Highlights
Sullivan currently works at Procter & Gamble Company, a leading organization in consumer goods, where his inventions serve to enhance product delivery methods. His technical knowledge and creativity have positioned him as a valuable asset to the company, contributing to advancements in their product offerings.
Collaborations
Throughout his career, James Thomas Sullivan has collaborated with talented individuals such as Dana Paul Gruenbacher and William Michael Cannon. These partnerships not only showcase his ability to work within a team but also highlight the collective effort that often drives innovations in technology.
Conclusion
James Thomas Sullivan stands out as a prominent figure in the realm of microfluidic technology, with his inventions playing a crucial role in advancing fluid delivery systems. His patents reflect a commitment to innovation and problem-solving in a fast-evolving industry, making him a key contributor to the future of microfluidics in various applications.