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    growth of a cubic crystal layer tagged posts

    Charging ahead to Higher Energy Batteries

    February 25, 2018, Categories  Chemistry/Nanotechnology, Physics, Technology/Electronics

    Image (a) is a cross-sectional SEM image of the Li5La3Nb2O12 crystal layer and image (b) shows computationally simulated trajectories of the Li, La, Nb, and O framework atoms obtained for ?3 (2-1-1) = (1-21) at a temperature of 1300 K. Credit: Nobuyuki Zettsu Ph.D., the Center for Energy and Environmental Science, the Department of Materials Chemistry, Shinshu University

    Image (a) is a cross-sectional SEM image of the Li5La3Nb2O12 crystal layer and image (b) shows computationally simulated trajectories of the Li, La, Nb, and O framework atoms obtained for ?3 (2-1-1) = (1-21) at a temperature of 1300 K. Credit: Nobuyuki Zettsu Ph.D., the Center for Energy and Environmental Science, the Department of Materials Chemistry, Shinshu University

    Researchers have developed a new way to improve lithium ion battery efficiency. Through the growth of a cubic crystal layer, the scientists have created a thin and dense connecting layer between the electrodes of the battery...

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