Location History:
- Gyeonggi-do, KR (2011)
- Siheung, KR (2014)
Company Filing History:
Years Active: 2011-2014
Title: Young Min Nam: Innovator in Fuel Cell Technology
Introduction
Young Min Nam is a prominent inventor based in Siheung, South Korea. He has made significant contributions to the field of fuel cell technology, holding a total of 2 patents. His work focuses on improving the efficiency and durability of fuel cells, which are essential for clean energy solutions.
Latest Patents
Young Min Nam's latest patents include innovative designs and methods that enhance the performance of fuel cells. One of his notable inventions is a metal separator for fuel cells, which features a surface structure that reduces contact resistance, improves corrosion resistance, and ensures stable electrical conductivity. This invention also includes a surface treatment method that involves sintering a Fe—Cr—B—V-based powder on a metal foam surface to create an alloy layer, followed by the formation of a nitride layer using a (Cr—V—B)N-based material.
Another significant patent is for a metallic bipolar plate for fuel cells. This invention describes a method for forming a surface layer through a plasma nitridation process on a stainless steel base material. This process creates a nitrogen-implanted layer, followed by oxidation and reduction processes that enhance conductivity and corrosion resistance.
Career Highlights
Young Min Nam is currently employed at Hyundai Motor Company, where he continues to develop innovative solutions in fuel cell technology. His work is instrumental in advancing the automotive industry's shift towards sustainable energy sources.
Collaborations
He collaborates with talented coworkers, including Seung Gyun Ahn and Yoo Chang Yang, who contribute to the research and development efforts at Hyundai Motor Company.
Conclusion
Young Min Nam is a key figure in the advancement of fuel cell technology, with his patents reflecting a commitment to innovation and sustainability. His contributions are paving the way for more efficient and durable fuel cells, which are vital for the future of clean energy.