Company Filing History:
Years Active: 2023
Title: Dakota Kennedy - Innovator in Fluid Transfer Systems
Introduction
Dakota Kennedy is an accomplished inventor based in Seattle, WA. He has made significant contributions to the field of fluid transfer systems, particularly in applications involving biological fluids. His innovative approach has led to the development of a unique patent that addresses the challenges associated with stabilizing biological samples.
Latest Patents
Kennedy holds a patent for a fluid transfer system designed for applications including stabilizing biological fluids. The patent describes a sample vessel that includes a biological sample container and a sample stabilizer container. The biological sample container is specifically configured to receive and store a biological sample. The sample stabilizer container is designed to contain a stabilizer associated with the biological sample. This innovative design features a stabilizer vial, an adaptor, and a fluid channel. The stabilizer vial is intended to store an amount of the stabilizer, while the adaptor secures the biological sample container and the stabilizer vial together, forming a cohesive sample vessel. The fluid channel extends through the adaptor, allowing the biological sample to move from the biological sample container into the stabilizer vial.
Career Highlights
Dakota Kennedy is affiliated with the University of Washington, where he continues to advance his research and development in fluid transfer technologies. His work has garnered attention for its potential applications in various scientific and medical fields.
Collaborations
Kennedy collaborates with notable colleagues, including Ashleigh Brooks Theberge and Erwin Stefan Peter Berthier. Their combined expertise contributes to the innovative projects at the University of Washington.
Conclusion
Dakota Kennedy's contributions to fluid transfer systems exemplify the spirit of innovation in the scientific community. His patent for a fluid transfer system highlights his commitment to improving the stabilization of biological samples, showcasing the importance of collaboration and research in advancing technology.