Location History:
- Dallas, TX (US) (2012)
- Richardson, TX (US) (2015 - 2024)
Company Filing History:
Years Active: 2012-2025
Title: Innovations of Jiyoung Oh in Polymer Fiber Technology
Introduction
Jiyoung Oh, a prominent inventor based in Richardson, Texas, has made significant contributions to the field of polymer fiber technology. With a remarkable portfolio of 9 patents, her work focuses on developing advanced actuators that mimic the functionality of artificial muscles.
Latest Patents
Among her latest innovative patents is the "Thermally-powered polymer fiber tensile actuators and articles including same," where she explores how twisted polymer fibers can generate tensile actuation when heated. This technology has promising applications in textiles and garments. Additionally, she has developed "Polymer fiber actuators" that employ twist-spun nanofiber yarn or twist-inserted polymer fibers. These actuators can generate movement when powered by various means, including electrical, photonic, or thermal energy. One of the notable inventions is the thermally-powered polymer fiber torsional actuator, featuring a twisted polymer fiber that exhibits distinct behaviors at varying temperatures.
Career Highlights
Jiyoung Oh's impressive career is marked by her role within the University of Texas System. Her dedication and innovative spirit have led to her pioneering research in polymer technology, significantly impacting the field and advancing our understanding of artificial muscle applications.
Collaborations
Throughout her career, Jiyoung has collaborated with esteemed colleagues such as Mikhail E Kozlov and Ray H Baughman. These partnerships have enhanced her research and contributed to the success of her innovative projects, showcasing the importance of teamwork in scientific advancement.
Conclusion
Jiyoung Oh stands out as a trailblazer in the development of polymer fiber technologies. Her groundbreaking patents and collaborative efforts continue to push the boundaries of what is possible in the realm of artificial muscles, promising exciting developments for industries reliant on innovative actuator solutions.