Hyungshick Park scite author profile

Organic ionic plastic crystals (OIPCs) are one of promising solid‐state electrolytes (SSEs) for all‐solid‐state batteries. OIPCs consist of organic ions that form crystalline solid phases. It is a challenging but critical task in the development of SSEs to improve the ion conductivity of lithium ions in such crystalline solid phases. We discuss our recent simulation studies on the transport mechanism of ions in OIPCs and show that the dynamic heterogeneity should be a key to the transport mechanism. We aim to show that both translational and rotational dynamic heterogeneities should play an important role in understanding the ionic conductivity in SSEs. We found from our simulations that the introduction of dopants and defects into OIPCs facilitated both the dynamic heterogeneity and the ion conductivity significantly. We also found that the polarizability of matrix organic ions could contribute to the rotational and conformational relaxations of organic ions in OIPCs.

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The effects of defects on the transport mechanisms of lithium ions in organic ionic plastic crystals

Park¹,

Park²,

Sung³

2023

Phys. Chem. Chem. Phys.

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Hyungshick Park

The effects of vacancies and their mobility on the dynamic heterogeneity in 1,3-dimethylimidazolium hexafluorophosphate organic ionic plastic crystals

Simulation studies on the dynamic heterogeneity of organic ionic plastic crystals

The effects of defects on the transport mechanisms of lithium ions in organic ionic plastic crystals

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