Results 211 to 220 of about 30,542 (261)
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Solid electrolyte interface formation between lithium and PEO-based electrolyte
Applied Surface Science, 2022Dmitry Yu Usachov +2 more
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Aging Property of Halide Solid Electrolyte at the Cathode Interface
Advanced Materials, 2023AbstractHalide solid electrolytes have recently emerged as a promising option for cathode‐compatible catholytes in solid‐state batteries (SSBs), owing to their superior oxidation stability at high voltage and their interfacial stability. However, their day‐ to month‐scale aging at the cathode interface has remained unexplored until now, while its ...
Wonju Kim +7 more
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Advances in Inorganic Solid‐State Electrolyte/Li Interface
Chemistry – A European Journal, 2023AbstractThe increasing demand for high‐energy‐density and high‐safety energy storage devices has sparked a growing interest in all‐solid‐state lithium metal batteries (ASSLMBs). A high‐quality inorganic solid‐state electrolyte (ISE) is a fundamental requirement for ASSLMBs, and an effective ISE/Li interface is a key factor in attaining high‐performance
Yi Chen +4 more
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Revealing the role of the cathode–electrolyte interface on solid-state batteries
Nature Materials, 2021Interfaces have crucial, but still poorly understood, roles in the performance of secondary solid-state batteries. Here, using crystallographically oriented and highly faceted thick cathodes, we directly assess the impact of cathode crystallography and morphology on the long-term performance of solid-state batteries.
Beniamin Zahiri +6 more
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Theory of Metal-Solid Electrolyte Interface
MRS Proceedings, 1988AbstractA comprehensive time independent theory of the solid electrolyte(SE)–metal electrode interface is presented, using the assumption that cations are the only mobile charge carrier in the electrolyte. The temperature and the dc current across the SE are the only free parameters for the solutions along with three intrinsic parameters which depend ...
S.I. Kim, M. Seidl
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Impedance of metal-solid electrolyte interfaces☆
Solid State Ionics, 1986The impedance of metal-solid electrolyte junctions display a characteristic frequency dependence in both the real and imaginary terms which can be represented by Z(ω) = B(jω)−n over several decades in ω, where ...
J BATES, J WANG, Y CHU
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The study on the interface characteristics of solid-state electrolyte
Journal of the Korean Ceramic Society, 2021Solid electrolytes for all-solid-state lithium batteries are excellent in terms of stability, and their performance has been improved through many studies. However, due to the interfacial reaction with lithium and sold electrolyte, there is a problem that the performance is deteriorated when used for a long time.
Hyung-Sik Lim +5 more
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Solid Interfaces for the Garnet Electrolytes
Advanced MaterialsAbstractSolid‐state electrolytes (SSEs) have attracted extensive interests due to the advantages in developing secondary batteries with high energy density and outstanding safety. Possessing high ionic conductivity and the lowest reduction potential among the state‐of‐the‐art SSEs, the garnet type SSE is one of the most promising candidates to achieve ...
Wuliang Feng, Yufeng Zhao, Yongyao Xia
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Double layer capacitance of anode/solid-electrolyte interfaces
Physical Chemistry Chemical Physics, 2011The double layer of electrode/electrolyte interfaces plays a fundamental role in determining the performance of solid state electrochemical cells. The double layer capacitance is one of the most-studied descriptors of the double layer. This work examines a case study on lanthanum strontium vanadate (LSV)/yttria-stabilized zirconia (YSZ) interfaces ...
Xiaoming, Ge +2 more
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Scalable Manufacturing of Hybrid Solid Electrolytes with Interface Control
ACS Applied Materials & Interfaces, 2019Hybrid solid electrolytes are promising alternatives for high energy density metallic lithium batteries. Scalable manufacturing of multi-material electrolytes with tailored transport pathways can provide an avenue toward controlling Li stripping and deposition mechanisms in all-solid-state devices.
Marm B. Dixit +5 more
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