Company Filing History:
Years Active: 2017
Title: The Innovative Work of Joo Hyuk Sohn in Particle Separation Technology
Introduction
Joo Hyuk Sohn is a prominent inventor based in Seoul, South Korea. He has made significant contributions to the field of particle separation technology, showcasing his innovative spirit and expertise. With one patented invention to his name, Sohn is making strides in improving methods for separating target particles from fluid samples.
Latest Patents
Sohn's most notable patent is titled "High Efficiency Particle Separating Apparatus and Method." This innovative apparatus provides a method for passing a fluid sample, such as blood, through a filter to remove foreign matter. The invention utilizes a Multi Orifice Flow Fractionation (MOFF) channel to separate target particles and employs dielectrophoresis to re-separate the target particles effectively. The apparatus consists of a central passage for discharging primarily separated materials and implements an electric field through a pair of electrodes, making it a cutting-edge technology in the field of particle separation.
Career Highlights
Joo Hyuk Sohn is affiliated with the Industry-Academic Cooperation Foundation at Yonsei University, where he has the opportunity to engage in groundbreaking research while contributing to academic advancements. His work is pivotal in bridging the gap between academic knowledge and practical applications in industry.
Collaborations
Throughout his career, Sohn has collaborated with notable colleagues such as Hyo Il Jung and Ki Ho Kwon. These collaborations enhance his research capabilities and foster innovation within the realm of particle separation technologies.
Conclusion
Joo Hyuk Sohn's contributions to the field of particle separation are noteworthy and reflect his dedication to innovation. His patented technology offers promising advancements in the efficient separation of target particles from complex fluid samples. As he continues his work at Yonsei University, the potential for further innovations remains high, paving the way for new developments in the realm of particle separation methods.