Company Filing History:
Years Active: 2025
Title: Matthias Voges: Innovator in Lithium Recovery Processes
Introduction
Matthias Voges is a notable inventor based in Ludwigshafen, Germany. He has made significant contributions to the field of lithium recovery from waste lithium-ion batteries. His innovative processes aim to enhance the efficiency and purity of lithium extraction, which is crucial for sustainable battery production.
Latest Patents
Matthias Voges holds 2 patents related to the recovery of lithium and other metals from waste lithium-ion batteries. His first patent, titled "Process for the recovery of lithium from waste lithium ion batteries," outlines a method that involves providing a particulate material containing transition metal compounds. This process includes treating the material with a polar solvent and an alkaline earth hydroxide, followed by separating the solids from the liquid to achieve high-purity lithium recovery.
The second patent, "Process for the recovery of lithium and other metals from waste lithium ion batteries," describes a similar approach. It emphasizes the importance of treating the particulate material with a polar solvent and optionally an alkaline earth hydroxide. This method also focuses on the separation of transition metals, which are valuable for producing battery cathode active materials.
Career Highlights
Matthias Voges is currently employed at BASF SE Corporation, where he continues to develop innovative solutions for lithium recovery. His work is pivotal in addressing the growing demand for sustainable battery materials.
Collaborations
Matthias collaborates with esteemed colleagues, including Wolfgang Rohde and Birgit Gerke. Their combined expertise contributes to the advancement of technologies in the field of battery recycling.
Conclusion
Matthias Voges is a key figure in the innovation of lithium recovery processes, with a focus on sustainability and efficiency. His patents reflect a commitment to improving battery recycling methods, which is essential for the future of energy storage technologies.