Results 281 to 290 of about 2,241,688 (347)
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, 2020
We present a multi-layer approach to design a laminated dual-polymer/polymer–ceramic composite electrolyte (LDPPCCE) for high-voltage all-solid-state lithium batteries.
Xingwen Yu, Jianyu Li, A. Manthiram
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We present a multi-layer approach to design a laminated dual-polymer/polymer–ceramic composite electrolyte (LDPPCCE) for high-voltage all-solid-state lithium batteries.
Xingwen Yu, Jianyu Li, A. Manthiram
semanticscholar +1 more source
Journal of Materials Chemistry A, 2020
This article shows strong chemical interaction between a ceramic and polymer in a solid-state composite electrolyte and three Li-ion transport pathways.
Hui Yang +8 more
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This article shows strong chemical interaction between a ceramic and polymer in a solid-state composite electrolyte and three Li-ion transport pathways.
Hui Yang +8 more
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ACS Applied Materials and Interfaces, 2020
Ionic conducting polymer electrolytes for solid-state lithium-ion batteries have attracted ever-increasing attention because of their decent ionic conductivity, flexibility, no liquid leakage and good processability.
Chuanjiao Xue +4 more
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Ionic conducting polymer electrolytes for solid-state lithium-ion batteries have attracted ever-increasing attention because of their decent ionic conductivity, flexibility, no liquid leakage and good processability.
Chuanjiao Xue +4 more
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Ambient‐Temperature All‐Solid‐State Sodium Batteries with a Laminated Composite Electrolyte
Advanced Functional Materials, 2020This study presents a sodium‐ion conductive laminated polymer/ceramic‐polymer solid‐state electrolyte for the development of room‐temperature all‐solid‐state sodium batteries.
Xingwen Yu +3 more
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Enhanced ionic conductivity in composite electrolytes
Solid State Ionics, 1988The ionic conductivity of a large number of electrolyte materials, such as LiI, AgCl, AgI and CuCl, is known to be enhanced by the addition of inert submicron particles, most often alumina. Typically the conductivity is enhanced by I to 3 orders of magnitude for composites containing 10 to 40 volume % particles.
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Composite solid electrolytes LiClO4–Al2O3
Solid State Ionics, 2006Abstract Composite solid electrolytes in the system (1 − x )LiClO 4 – x Al 2 O 3 were prepared by sintering of preliminarily dehydrated components at 300 °C; their thermodynamic, electrical and electrochemical properties were investigated. Conductivity of pure anhydrous lithium perchlorate did not exceed 10 − 5 S/cm at 200 °C. Heterogeneous doping
A ULIHIN +4 more
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Inhibit of Lithium Dendrite Growth in Solid Composite Electrolyte by Phase-Field Modeling
, 2020Lithium (Li) dendrite growth poses serious challenges for the development of Li metal batteries.
Yao Ren, Yue Zhou, Ye Cao
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Membrany i membrannye tehnologii
The review describes composite electrolytes based on classical salt matrix phases, and also shows the possibilities of creating composites using simple or complex oxide matrices, where simple substances, salts, simple and complex oxides are used as heterogeneous dopant.
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The review describes composite electrolytes based on classical salt matrix phases, and also shows the possibilities of creating composites using simple or complex oxide matrices, where simple substances, salts, simple and complex oxides are used as heterogeneous dopant.
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Composite polyether based solid electrolytes
Electrochimica Acta, 1995Composite polymeric electrolytes form a new group of solid ionic conductors. Several desirable properties make them suitable for application in various electrochemical devices working over a wide temperature range. In this paper some recent developments in the field of composite polymeric electrolytes are described.
W. Wieczorek +2 more
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ACS Materials Letters, 2019
Rechargeable sodium-based batteries are receiving increasing attention as large-scale energy storage systems, because of the abundant resource and low cost of sodium.
Xingwen Yu +3 more
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Rechargeable sodium-based batteries are receiving increasing attention as large-scale energy storage systems, because of the abundant resource and low cost of sodium.
Xingwen Yu +3 more
semanticscholar +1 more source