| Energy Storage Technologies - What is Benchtop NMR for and Why Use It? |
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The latest energy storage news from across the AZoNetwork |
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 Shaping the Future of Batteries Across the Entire Value Chain
You will learn about a complete portfolio of technologies applied to battery research and production, including AFM, NMR, EPR, MS, FTIR, XRD, XRF, XRM, RAMAN, EDS and EBSD.
Learn more about how these tools are used in various ways to help researchers and manufacturers understand how batteries work, how they can be improved, and how they can be produced and recycled more efficiently.
Engage with a panel of experts as they discuss what will be shaping the future of batteries.
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| | | | |  The incorporation of charged lithium ions within polyoxometalates (POMs), when combined with ionic liquids, enhances the ion conductivity of a solid-state electrolyte membrane. | | | | |  Hydrogel electrolytes hold great potential for the advancement of flexible and secure battery technologies. | | | | |  Researchers from Japan and China have developed a graphene separator embedded with platinum-doped gold nanoclusters, which enhance lithium-ion transport and facilitate redox reactions. | | | | |  A research team, led by Dr. Si Hyoung Oh from the Energy Storage Research Center at the Korea Institute of Science and Technology (KIST), has successfully developed a highly safe aqueous rechargeable battery that can serve as a cost-effective and secure alternative. | |
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