Company Filing History:
Years Active: 2007-2022
Title: **Innovative Contributions of Sung Shik Eom in Hydroformylation**
Introduction
Sung Shik Eom, located in Daejeon, South Korea, is a prominent inventor known for his significant contributions to the field of hydroformylation. With a remarkable portfolio of 19 patents, Eom has continued to innovate and improve the efficiency of processes related to aldehyde production.
Latest Patents
Among his latest patents, Eom has developed a composition including a hydroformylation catalyst that boasts excellent catalytic activity and stability. This innovative catalyst not only enhances the efficiency of aldehyde preparation from olefin compounds but also effectively lowers the normal/iso (n/i) ratio of the resultant aldehyde, leading to an increased synthesis gas yield. Furthermore, he has introduced a catalyst composition for hydroformylation that employs a specific phosphite-based ligand and a transition metal compound in precise amounts. This advancement significantly reduces the required quantity of expensive transition metal compounds while maintaining exceptional catalyst stability and activity. The process also results in high yields of iso-aldehyde, demonstrating Eom's dedication to optimizing chemical processes.
Career Highlights
Sung Shik Eom's career is marked by his affiliation with LG Chem, Ltd., where he leverages his expertise in chemical engineering and catalysis to drive innovation. His achievements in the field have not only inspired progress in hydroformylation but also contributed to the broader chemical industry.
Collaborations
Eom collaborates with noted colleagues such as Dong Hyun Ko and Da Won Jung, further enriching his research endeavors. These collaborations have played a crucial role in advancing his patented technologies and fostering innovative solutions within their field.
Conclusion
Sung Shik Eom stands out as a leading inventor in hydroformylation, with his recent patents reflecting his commitment to enhancing chemical processes. His innovative work continues to impact the chemistry landscape, paving the way for more efficient and cost-effective production methods.