Applied to high-voltage cathodes, the shielding layer mitigates interfacial degradation and enables stable cycling at >5 V, including under high-capacity conditions. You have full access to this article via your institution.
The first area of focus is the design of a protective layer for stabilizing the Li-metal interface. These protective layers are categorized as polymer-based, inorganic, or composite materials.
Furthermore, lithium fluoride (LiF) has been reported as an interface protective layer profiting from the high interfacial energy which can suppress lithium dendrites and stabilize solid-solid contact interfaces.
Yonsei University, Seoul, South Korea. “5 V-class all-solid-state batteries (ASSBs) are realized through a fluoride-based shielding layer, LiCl–4Li 2 TiF 6, which uniquely combines high ionic conductivity with exceptional oxidative stability. The enhanced ion transport originates from interfacial effects within the nanocomposite structure.
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Voltage instability of battery materials has hindered the realization of high-voltage all-solid-state batteries (ASSBs). Now, 5 V-class ASSBs are enabled by a fluoride-based shielding layer, LiCl ...
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Free QuoteVoltage instability of battery materials has hindered the realization of high-voltage all-solid-state batteries (ASSBs). Now, 5 V-class ASSBs are enabled by a fluoride-based …
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Free QuoteLiBH4 is one of the most promising candidates for use in all-solid-state lithium batteries. However, the main challenges of LiBH4 are the poor Li-ion conductivity at room temperature, excessive dendrite …
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Free QuoteAs a result, a primary zinc-air battery using Bi@Zn achieves full discharge, whereas bare zinc fails at one-tenth of the discharge depth. Moreover, the Bi shielding layer enhances zinc anode reversibility, shown …
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Free QuoteA self‐regulated shielding layer induced by an electrolyte additive for alkaline Al–air batteries Lei Guo * ac, Yongbiao Huangb, Ida Ritaccod, Renhui Zhang * b, Jun Changae, …
Free QuoteAs a result, a primary zinc-air battery using Bi@Zn achieves full discharge, whereas bare zinc fails at one-tenth of the discharge depth. Moreover, the Bi shielding layer enhances …
Free QuoteDownload Citation | On Feb 9, 2024, Yiqi Wei and others published Polymeric Electronic Shielding Layer Enabling Superior Dendrite Suppression for All-Solid-State Lithium Batteries | Find, read …
Free QuoteA tailored dual-layer electronic shielding interface enables highly stable and dendrite-free solid-state lithium metal batteries
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