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Visualizing plating-induced cracking in lithium-anode solid-electrolyte cells
Nature Materials, 2021Z. Ning +17 more
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2022
There is provided a solid electrolyte including at least one layer with no nitrogen and which includes LixPOySz, with 0 < z ≤ 3, 2.1 ≤ x ≤ 2.4, and 1 ≤ y ≤ 4. A battery including the electrolyte, and a method for producing the electrolyte, are also provided.
Bouchet, R. +3 more
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There is provided a solid electrolyte including at least one layer with no nitrogen and which includes LixPOySz, with 0 < z ≤ 3, 2.1 ≤ x ≤ 2.4, and 1 ≤ y ≤ 4. A battery including the electrolyte, and a method for producing the electrolyte, are also provided.
Bouchet, R. +3 more
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1976
A solid electrolyte should consist of a rigid, three-dimensional network, stabilized by electrons donated by mobile ions which partially occupy a two or three-dimensionally linked interstitial space. Such networks may be classified into three groups, depending on whether the three-dimensional., rigid skeleton is built from tetrahedra, octahedra, or a ...
H. Y-P Hong +3 more
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A solid electrolyte should consist of a rigid, three-dimensional network, stabilized by electrons donated by mobile ions which partially occupy a two or three-dimensionally linked interstitial space. Such networks may be classified into three groups, depending on whether the three-dimensional., rigid skeleton is built from tetrahedra, octahedra, or a ...
H. Y-P Hong +3 more
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Solid State Ionics, 1997
Strategies for the design of ceramic solid electrolytes are reviewed. Problems associated with stoichiometric and doped compounds are compared. In the illustration of design principles, emphasis is given to oxide-ion electrolytes for use in solid-oxide fuel cells, oxygen pumps, and oxygen sensors.
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Strategies for the design of ceramic solid electrolytes are reviewed. Problems associated with stoichiometric and doped compounds are compared. In the illustration of design principles, emphasis is given to oxide-ion electrolytes for use in solid-oxide fuel cells, oxygen pumps, and oxygen sensors.
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Journal of Non-Crystalline Solids, 1980
Abstract As solid electrolytes, glasses show many advantages over crystalline solids (no grain boundaries, large available composition scales, thermal history manipulations, weak electronic contribution to the conductivity, manufacture in thin film configuration, plasticity).
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Abstract As solid electrolytes, glasses show many advantages over crystalline solids (no grain boundaries, large available composition scales, thermal history manipulations, weak electronic contribution to the conductivity, manufacture in thin film configuration, plasticity).
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A solid advance in electrolytes
Nature Energy, 2019Electrochemically reducing CO2 into value-added chemicals could contribute to CO2 recycling while storing renewable energy. However, reaction products are typically mixed with additional solutes in the liquid electrolyte. Now, a cell that uses a solid electrolyte is shown to produce pure liquid fuel solutions from CO2.
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Recovering carbon losses in CO2 electrolysis using a solid electrolyte reactor
Nature Catalysis, 2022Jung Yoon (Timothy) Kim +5 more
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