Revealing cooperative Li-ion migration in Li₁₊ₓAlₓTi₂₋ₓ(PO₄)₃ solid state electrolytes with high Al doping
2019
Zhang, Bingkai | Lin, Zhan | Dong, Huafeng | Wang, Lin-Wang | Pan, Feng
Li₁₊ₓAlₓTi₂₋ₓ(PO₄)₃ (LATP) is attracting attention as a promising inorganic solid electrolyte (ISE) with potential use in all-solid-state lithium-ion batteries. The objective of this paper is to examine and understand the effect of the Al-dopant concentration on the Li-ion diffusion of LATP using density functional theory and the molecular dynamics method. By comparing Li₁.₁₆Al₀.₁₆Ti₁.₈₄(PO₄)₃ (LATP-0.16) and Li₁.₃₃Al₀.₃₃Ti₁.₆₇(PO₄)₃ (LATP-0.33) with Li₁.₅Al₀.₅Ti₁.₅(PO₄)₃ (LATP-0.50), LATP-0.50 is expected to have higher ionic conductivity. The trapping effect of Al-dopants on Li-ions is greatly reduced in LATP-0.50 due to the delocalization of polarization interactions and the depopulation of oxygen atoms, which results in a smooth energy landscape and destabilization of Li-ions. The energy difference of adjacent Li-ions and binding interaction of Li–Li due to a specific local configuration of two Li-ions alternately enable cooperative migration of Li-ions. This understanding of high Li-ion diffusion is important in interpreting the experimental results aiming to assess the effects of Al-dopants on Li-ion conductivity and can be used by researchers to engineer these materials for batteries.
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