Company Filing History:
Years Active: 1997-2017
Title: Innovations of Jun Kono in Aldehyde Production
Introduction
Jun Kono is a notable inventor based in Wakayama, Japan. He has made significant contributions to the field of chemical engineering, particularly in the production of aldehydes. With a total of 7 patents to his name, Kono's work has garnered attention for its innovative approaches and practical applications.
Latest Patents
Kono's latest patents focus on methods for producing aldehydes with improved efficiency. One of his notable inventions is a method that enhances alcohol conversion and aldehyde selectivity while minimizing the generation of aldol condensates. This method involves dehydrogenating primary alcohol in the presence of a specially formulated catalyst composition. The catalyst is a first catalyst composition that includes a potassium salt of a weak acid combined with a dehydrogenation catalyst containing copper as an active species. Another significant patent describes a method for producing aldehydes that achieves a high conversion rate over an extended period. This method utilizes a raw material gas containing primary alcohols with 4 to 18 carbon atoms and water, which is brought into contact with a dehydrogenation catalyst containing copper and iron.
Career Highlights
Jun Kono is currently associated with Kao Corporation, where he continues to innovate in the field of chemical production. His work has not only advanced the understanding of aldehyde production but has also contributed to the development of more efficient industrial processes.
Collaborations
Kono collaborates with talented individuals such as Tsubasa Arai and Yasuyuki Hattori, who contribute to his research and development efforts. Their teamwork enhances the innovative capacity of their projects and leads to groundbreaking advancements in their field.
Conclusion
Jun Kono's contributions to aldehyde production exemplify the impact of innovative thinking in chemical engineering. His patents reflect a commitment to improving industrial processes and achieving higher efficiency in chemical production.