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Rechargeable Sodium All-Solid-State Battery [PDF]
ACS Central Science, 2017 A reversible plating/stripping of a dendrite-free metallic-sodium anode with a reduced anode/ceramic interfacial resistance is created by a thin interfacial interlayer formed in situ or by the introduction of a dry polymer film. Wetting of the sodium on the interfacial interlayer suppresses dendrite formation and growth at different discharge/charge C ...
Weidong Zhou +3 more
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Synthesis and Lithium-ion Conductivity of Sr(La1−xLi3x)ScO4 with a K2NiF4 Structure
Electrochemistry, 2022 K2NiF4-type oxides are expected to be potential lithium-ion conductors because they have a structure similar to that of perovskites, which provide a reasonably flexible framework for accommodating defects such as charge carriers within the lattice ...
Guowei ZHAO +3 more
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Energy Materials and Devices, 2023 Composite solid-state electrolytes have received significant attention due to their combined advantages as inorganic and polymer electrolytes. However, conventional ceramic fillers offer limited ion conductivity enhancement for composite solid-state ...
Yu Yuan +10 more
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On the Feasibility of All-solid-state Batteries with LLZO as a Single Electrolyte [PDF]
Scientific Reports, 2021 Abstract Replacement of Li-ion liquid-state electrolytes by solid-state counterparts in a Li-ion battery (LIB) is a major research objective as well as an urgent priority for the industry, as it enables the use of a Li metal anode and provides new opportunities to realize safe, non-flammable, and temperature-resilient batteries.
Kravchyk, Kostiantyn V. +2 more
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Metastable Materials for All-Solid-State Batteries
Electrochemistry, 2019 Atsushi Sakuda +2 more
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Progress and Challenges for All‐Solid‐State Sodium Batteries [PDF]
Advanced Energy and Sustainability Research, 2021 All‐solid‐state sodium batteries (ASSBs) are regarded as the next generation of sustainable energy storage systems due to the advantages of abundant sodium resources, and their exceptional and high energy density. Nevertheless, there are still grand challenges to realize their practical applications, such as the limited types of solid‐state ...
Hui-Ling Yang +5 more
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Progress and perspective of Li1 + xAlxTi2‐x(PO4)3 ceramic electrolyte in lithium batteries
InfoMat, 2021 The replacement of liquid organic electrolytes with solid‐state electrolytes (SSEs) is a feasible way to solve the safety issues and improve the energy density of lithium batteries. Developing SSEs materials that can well match with high‐voltage cathodes
Ke Yang +4 more
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An All‐Solid‐State Bromide‐Ion Battery
ChemElectroChem, 2021 AbstractBromide‐ion batteries can provide higher energy densities compared to conventional lithium‐ion batteries, but the high water solubility of bromide salts may require all‐solid‐state cells. Fortunately, the low Young's modulus of bromide salts is an advantage in terms of fabricating high‐performance all‐solid‐state cells.
Atsushi Inoishi +6 more
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Nature Communications, 2022 High-voltage non-aqueous lithium metal batteries suffer from poor cycling stability due to the presence of impurities in the electrolyte solution. Here, the authors report lithium hexamethyldisilazide to scavenge HF and H2O, prevent the Ni dissolution ...
Danfeng Zhang +14 more
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Developments in New Materials for Electrochemistry and Energy Storage Devices
Electrochemistry, 2023 The development of new materials leads to the invention of new devices. The exploitation of high ionic conductivity materials has facilitated the emergence of a new category of energy storage devices, including the all-solid-state battery.
Ryoji KANNO
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