Jungmee Kang

Title: Jungmee Kang: Innovator in Polyureas and Bio-Artificial Pancreas Technology

Introduction

Jungmee Kang is a notable inventor based in Stow, Ohio, recognized for his contributions to the fields of polyureas and bio-artificial pancreas technology. With a total of 4 patents to his name, Kang has made significant advancements that have the potential to impact various industries, particularly in medical applications and material science.

Latest Patents

Kang's latest patents include innovative technologies such as "Melt processible polyureas and polyurea-urethanes, method for the production thereof and products made therefrom." This invention focuses on creating a polyurea or polyurea-urethane elastomer that combines soft and hard polymer segments. The hard polymer segment incorporates polyurea groups along with hydrogen-bond accepting chain extenders (HACEs), which help to lower the flow temperature while preserving excellent mechanical properties, making the elastomer melt-processable.

Another significant patent is the "Bio-artificial pancreas and a procedure for preparation of same." This invention pertains to implantable devices designed to produce insulin in diabetic animals. It includes methods for creating amphiphilic biomembranes that can serve as an alternative or supplemental insulin source. Some embodiments feature live insulin-producing cells encapsulated within these membranes to minimize immuno-response and rejection by the host.

Career Highlights

Jungmee Kang is affiliated with The University of Akron, where he continues to engage in research and development. His work has not only contributed to academic knowledge but also has practical applications that can benefit patients with diabetes and industries requiring advanced materials.

Collaborations

Kang has collaborated with notable colleagues such as Joseph P. Kennedy and Gabor Erdodi, enhancing the scope and impact of his research through teamwork and shared expertise.

Conclusion

Jungmee Kang's innovative work in polyureas and bio-artificial pancreas technology exemplifies the importance of research and development in addressing real-world challenges. His contributions are paving the way for advancements that could significantly improve the quality of life for individuals with diabetes and enhance material properties in various applications.