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Van der Waals phase transition investigation toward high-voltage layered cathodes.

Ang GaoShijie ShenTongtong ShangYuansheng ShiHuanhuan ZhangWeiguang LinShiyu WangTing LinPengxiang JiYi-Chi WangYujie ChenBotao YuXia LuWenwu ZhongQinghua ZhangLin Gu
Published in: Science advances (2024)
High-voltage phase transition constitutes the major barrier to accessing high energy density in layered cathodes. However, questions remain regarding the origin of phase transition, because the interlayer weak bonding features cannot get an accurate description by experiments. Here, we determined van der Waals (vdW) interaction (vdWi) in Li x CoO 2 via visualizing its electron density, elucidating the origin of O3─O1 phase transition. The charge around oxygen is distorted by the increasing Co─O covalency. The charge distortion causes the difference of vdW gap between O3 and O1 phases, verified by a gap corrected vdW equation. In a high charging state, excessive covalency breaks the vdW gap balance, driving the O3 phase toward a stable O1 one. This interpretation of vdWi-dominated phase transition can be applied to other layered materials, as shown by a map regarding degree of covalence. Last, we introduce the cationic potential to provide a solution for designing high-voltage layered cathodes.
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