Company Filing History:
Years Active: 1999-2004
Title: Innovations of Tae-Jin Park
Introduction
Tae-Jin Park is a prominent inventor based in Seoul, South Korea. He has made significant contributions to the field of catalysis, particularly in the development of advanced materials for fuel cells and methane conversion. With a total of 2 patents, his work showcases innovative approaches to enhancing catalytic processes.
Latest Patents
One of Tae-Jin Park's latest patents is an aerogel type platinum-ruthenium-carbon catalyst, which is designed for use in direct methanol fuel cells. This catalyst maintains long-term high catalytic activity and is manufactured through a sol-gel process followed by supercritical drying. The composition includes 5 to 70% by weight of platinum and ruthenium, with a specific atomic ratio, ensuring optimal performance in fuel cell applications.
Another notable patent involves the preparation of a Pb-substituted hydroxyapatite catalyst for the oxidative coupling of methane. This catalyst is represented by the formula Ca.sub.10-x pb.sub.x (PO.sub.4).sub.6 (OH).sub.2 and is produced through a series of precise chemical processes. The resulting catalyst is utilized for producing C.sub.2 compounds at high temperatures, demonstrating its potential in industrial applications.
Career Highlights
Tae-Jin Park is affiliated with the Korea Institute of Science and Technology, where he conducts research and development in catalysis. His innovative work has positioned him as a key figure in advancing technologies related to fuel cells and methane conversion.
Collaborations
Throughout his career, Tae-Jin Park has collaborated with notable colleagues, including Dong Jin Suh and Young-Hyun Yoon. These partnerships have contributed to the successful development of his patented technologies.
Conclusion
Tae-Jin Park's contributions to the field of catalysis through his innovative patents highlight his expertise and commitment to advancing scientific knowledge. His work continues to influence the development of efficient catalytic processes for energy applications.