Jongyun Jang

Title: Innovations of Jongyun Jang in Lithium Salt Production

Introduction: Jongyun Jang is an accomplished inventor based in Uiseong-gun, South Korea, recognized for his significant contribution to the field of chemical engineering. With a focus on improving lithium salts, he has developed a novel method that addresses crucial aspects of lithium salt production.

Latest Patents: Jongyun Jang holds a patent titled "Method for producing bis(fluorosulfonyl)imide lithium salt (LiFSI) with reduced fluorine anion content by using alkoxy trialkyl silane." This innovative method involves two main steps: firstly, the reaction of bis(chlorosulfonyl)imide with NHF(HF)n (where n ranges from 0 to 10) to prepare ammonium bis(fluorosulfonyl)imide. Secondly, the ammonium compound is reacted with a lithium base, during which an alkoxy trialkyl silane is added to the reaction solution in order to remove excess fluorine anions. This cutting-edge process enhances the efficiency of lithium salt production and reduces harmful byproducts.

Career Highlights: Currently, Jongyun Jang is associated with the Daegu Catholic University Industry Academic Cooperation Foundation, where he leverages his expertise to advance research and development in the field of chemistry. His work not only contributes to the scientific community but also opens avenues for industrial applications.

Collaborations: Jang collaborates with notable colleagues, including Sang Ryul Lee and Kyoung Chol Kim. These partnerships foster a productive environment for innovation and allow for shared expertise in tackling complex challenges in chemical production.

Conclusion: Jongyun Jang's work exemplifies the spirit of innovation in the realm of chemical engineering. His patented method for producing lithium salts demonstrates a commitment to enhancing production techniques while minimizing environmental impact. Through his research and collaborations, Jang continues to make strides in advancing the field, paving the way for further innovations in lithium chemistry.