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Diffusion mechanisms of fast lithium-ion conductors
The quest for next-generation energy-storage technologies has pivoted towards all-solid-
state batteries, primarily owing to their potential for enhanced safety and energy density. At …
state batteries, primarily owing to their potential for enhanced safety and energy density. At …
New advances in solid-state electrolytes: from halides to oxyhalides
Q Wang, Z Shen, P Du, Y Zhou, P Zhang… - Inorganic Chemistry …, 2024 - pubs.rsc.org
The emerging area of halide solid electrolytes has garnered significant interest due to its
superior ionic conductivity, broad electrochemical stability range, and strong compatibility …
superior ionic conductivity, broad electrochemical stability range, and strong compatibility …
Elucidating Anisotropic Ionic Diffusion Mechanism in Li3YCl6 with Molecular Dynamics Simulations
Halide-based solid electrolytes have emerged as promising materials for the development of
solid-state batteries, due to their high ionic conductivity and excellent chemical properties …
solid-state batteries, due to their high ionic conductivity and excellent chemical properties …
Exploring the soft cradle effect and ionic transport mechanisms in the LiMXCl4 superionic conductor family
LiMXCl 4, a recently discovered lithium superionic conductor, achieves Li conductivity up to
12.4 mS/cm at room temperature. Notably, LiNbOCl 4 features flexible, rotating polyhedra …
12.4 mS/cm at room temperature. Notably, LiNbOCl 4 features flexible, rotating polyhedra …
Thermodynamic stability and diffusion mechanism of LiMXCl4 superionic conductors
LiMXCl4 is a recently discovered lithium superionic conductor reported with a Li conductivity
up to 12.4 mS/cm at room temperature. In this work, we explore various types of M-cation …
up to 12.4 mS/cm at room temperature. In this work, we explore various types of M-cation …