Si Hyun Do

Title: Si Hyun Do: Innovator in Polymer Separation Membranes

Introduction

Si Hyun Do is a prominent inventor based in Seoul, South Korea. He has made significant contributions to the field of polymer separation membranes, showcasing his innovative spirit and technical expertise. His work focuses on enhancing the efficiency and effectiveness of separation processes in various industrial applications.

Latest Patents

Si Hyun Do holds a patent for a "Method for manufacturing ultra-thin polymer separation membrane by using low-temperature coating." This invention relates to an ultra-thin polymer separation membrane that includes a porous polymer support layer, a gutter layer formed on the support layer, and a semi-crystalline polymer selection layer. The unique aspect of this invention is that the semi-crystalline polymer selection layer is coated with a nanometer-level thickness at temperatures ranging from 0° C. to −50° C. This innovative approach allows for better control over the crystallinity and orientation of the membrane, which is crucial for scaling up separation membrane processes. Additionally, the method enhances separation performance by utilizing only polymers as raw materials, eliminating the need for additional additives commonly used in traditional manufacturing processes.

Career Highlights

Si Hyun Do is affiliated with the Industry-University Cooperation Foundation at Hanyang University. His role in this institution allows him to bridge the gap between academic research and practical industrial applications. His dedication to advancing the field of polymer technology is evident through his innovative research and development efforts.

Collaborations

Si Hyun Do has collaborated with notable colleagues, including Ho Bum Park and Tae Hoon Lee. These partnerships have contributed to the advancement of his research and the successful development of his patented technologies.

Conclusion

Si Hyun Do is a remarkable inventor whose work in polymer separation membranes is paving the way for advancements in industrial applications. His innovative methods and dedication to research continue to impact the field positively.