Company Filing History:
Years Active: 2016
Title: The Innovative Contributions of Josefine Zuber
Introduction
Josefine Zuber is a notable inventor based in Landshut, Germany. She has made significant contributions to the field of chemistry, particularly in the production of lithium metal phosphates. Her innovative work has implications for various applications, including energy storage and materials science.
Latest Patents
Josefine Zuber holds a patent for a cyclic process for wet-chemically producing lithium metal phosphates. The invention relates to a method for producing lithium metal phosphates of the formula LiMPO, where M is at least one type of bivalent metal, preferably selected from the first transition metal range. The method involves reacting a lithium phosphate with a metal salt and an acid phosphate source in a polar solvent to convert it into a corresponding M-containing phosphate. A basic lithium source is then added to obtain a precursor mixture for the desired lithium metal phosphate. The process includes converting and separating the obtained mixture, preferably under hydrothermal conditions, to yield a final product while receiving a lithium-containing filtrate. The addition of the basic lithium source initiates lithium ion precipitation in the form of lithium phosphate, which can be reused as a raw material, enabling high reusability of lithium.
Career Highlights
Josefine Zuber is currently employed at Johnson Matthey Inc., where she continues to advance her research and development efforts. Her work is characterized by a commitment to innovation and sustainability in chemical processes.
Collaborations
Josefine has collaborated with notable colleagues, including Gerhard Nuspl and Christian Vogler, to further enhance her research initiatives and contribute to the scientific community.
Conclusion
Josefine Zuber's innovative work in the field of lithium metal phosphates exemplifies her dedication to advancing chemical processes. Her contributions not only highlight her expertise but also pave the way for future advancements in energy storage and materials science.