Origin of Poor Cyclability in Li2MnSiO4 from First-Principles Calculations: Layer Exfoliation and Unstable Cycled Structure

Hosik Lee; Soon-Dong Park; Janghyuk Moon

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Origin of Poor Cyclability in Li2MnSiO4 from First-Principles Calculations: Layer Exfoliation and Unstable Cycled Structure

机译：第一性原理计算Li2MnSiO4循环性差的根源：层剥落和不稳定的循环结构

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Good cyclability is essential for the potential application of cathode materials. Here, we investigate the structural stability of two-dimensional (2D) Li-layered and three-dimensional (3D) structured polymorphs of Li2FeSiO4 and Li2MnSiO4 using the density functional theory calculations. We find that all 2D Li-layered polymorphs of both materials are unstable upon full delithiation owing to layer exfoliation, which can lead to an amorphous structure. However, in contrast to the fact that the amorphization of Li2FeSiO4 can be prevented by the formation of the 3D cycled structure that is energetically stable, the 3D cycled structure of Li2MnSiO4 is found to be unstable during delithiationlithiation cycling. As a result, Li2MnSiO4 easily undergoes amorphization and shows a poor cyclability.

机译：良好的可循环性对于阴极材料的潜在应用至关重要。在这里，我们使用密度泛函理论计算研究了Li2FeSiO4和Li2MnSiO4的二维（2D）锂层和三维（3D）结构多晶型物的结构稳定性。我们发现，由于层剥落，两种材料的所有2D Li层多晶型物在完全脱锂时均不稳定，这可能导致非晶结构。然而，与通过形成能量上稳定的3D循环结构可以防止Li 2 FeSiO 4的非晶化这一事实相反，发现Li 2 MnSiO 4的3D循环结构在脱锂-锂化循环期间不稳定。结果，Li 2 MnSiO 4易于非晶化并且显示出差的循环性。

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《Chemistry of Materials: A Publication of the American Chemistry Society》 |2014年第13期|共4页
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Hosik Lee; Soon-Dong Park; Janghyuk Moon;
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中图分类工程材料学;
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Origin of Poor Cyclability in Li2MnSiO4 from First-Principles Calculations: Layer Exfoliation and Unstable Cycled Structure

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