Sun-ju Moon

Introduction

Sun-ju Moon is a prominent inventor based in Gumi-si, South Korea, recognized for her groundbreaking work in the field of ion-exchange membranes. She holds a patent for a self-humidifying ion-exchange composite membrane, a significant advancement that promises to impact various applications, including fuel cells and water treatment technologies.

Latest Patents

Sun-ju Moon's patent, titled "Self-humidifying ion-exchange composite membrane and method for fabricating the same," pertains to the development of a composite membrane that features an aromatic hydrocarbon polymer ion-exchange membrane situated on a porous polymer support. The membrane is distinguished by a thin hydrophobic coating layer that exhibits a unique nanocracked morphology pattern. This innovative membrane boasts excellent thermal and chemical stability, superior mechanical strength, a high ion-exchange capacity, and prolonged operational stability. Notably, it is capable of self-hydrating even in conditions of high temperature and low humidity. Such characteristics position this membrane as a promising option for commercialization in fuel cell applications and advanced water treatment processes.

Career Highlights

Sun-ju Moon is affiliated with the Industry-University Cooperation Foundation at Hanyang University, where she utilizes her expertise to contribute to the field of membrane technology. Her innovative spirit and dedication to research have positioned her as a key figure in her domain.

Collaborations

Throughout her career, Sun-ju Moon has collaborated with notable colleagues, including Young Moo Lee and Sang Hyun Park. These partnerships have facilitated the exchange of ideas and fostered a dynamic research environment that enhances innovation in membrane technology.

Conclusion

In conclusion, Sun-ju Moon's contributions to the development of self-humidifying ion-exchange composite membranes represent a significant step forward in technology that has the potential to revolutionize industries reliant on efficient electrolyte membranes. Her work, backed by a solid foundation of collaboration and research, highlights her as an influential inventor in the realm of innovation.