Post #5226

Oxford Breakthrough Reveals the Secret Ingredient Inside Lithium-Ion Batteries Scientists at the University of Oxford have created an advanced technique that allows them to clearly see a crucial but previously hard-to-detect part of lithium-ion battery electrodes. The findings, published today (February 17) in Nature Communications, could improve how battery electrodes are manufactured and lead to faster charging and longer-lasting Li-ion batteries. The research centers on polymer binders used in the negative electrodes of lithium-ion batteries (anodes). Although these binders account for less than 5% of the electrode’s weight, they play an essential role in keeping the electrode intact. They influence mechanical strength, electrical and ionic conductivity, and overall battery lifespan. Because binders lack distinctive visual features and are present in such small amounts, scientists have struggled to track where they are located inside the electrode. That limitation has made it difficult to fine-tune battery performance, since binder placement directly affects conductivity, structural stability, and durability over time. Patent Pending Staining Technique Makes Binders Visible To solve this long-standing challenge, the team developed a patent-pending staining method that attaches traceable silver and bromine markers to widely used cellulose- and latex-based binders in both graphite- and silicon-based anodes. Once tagged, the binders can be detected because they emit characteristic X-rays (measured with energy-dispersive X-ray spectroscopy) or reflect high-energy electrons from the surface (measured with energy-selective backscattered electron imaging). Under an electron microscope, these signals reveal detailed information about where elements are distributed and what the surface structure looks like. Source:SciTechDaily @EverythingScience