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Karlsruhe Institute of Technology: Simultaneous concept accelerates electrode production
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BASF and KIT join forces in public funded project to investigate opportunities of multilayered anodes for lithium-ion batteries
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One potential solution for enhancing capacity and production efficiency of lithium-ion batteries is to subdivide electrodes into dedicated functional layers. For example, a thin primer layer below the actual active anode helps to improve adhesion performance. At the same time, the overall binder content is reduced, resulting in higher energy.
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IMAGE: Better understanding of the lifecycle accelerates the development of long-lasting, recyclable, and safe lithium-ion batteries. view more
Credit: (Photo: Laila Tkotz, KIT)
Recycling and optimized resource cycles, second use, and knowledge-based cell design are expected to enhance sustainability and safety of lithium-ion batteries in future. The basis is now provided by process engineers and materials scientists of Karlsruhe Institute of Technology (KIT), who jointly study the battery lifecycle. The new research projects are carried out within the battery research clusters greenBatt and BattNutzung funded by the Federal Ministry of Education and Research (BMBF).
Battery cells of constant high performance can considerably reduce the ecological footprint of applications, such as electric mobility. In addition, second use of such cells is considered, e.g. in large networks of storage systems. But not all cells are suited for such second-life scenarios.