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Solid-Electrolyte Nanometer Switch
IEICE Transactions on Electronics, 2006We have developed a solid-electrolyte nonvolatile switch (here we refer as NanoBridge) with a low ON resistance and its small size. When we use a NanoBridge to switch elements in a programmable logic device, the chip size (or die cost) can be reduced and performance (speed and power consumption) can be enhanced.
Naoki Banno +8 more
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Berichte der Bunsengesellschaft für physikalische Chemie, 1989
AbstractA review of recent progress in the science and applications of solid electrolytes is given. This includes the development of new materials, both as ionic and mixed ionic/electronic conductors, improved understanding of conduction mechanisms and the factors that led to high ionic conductivity in solids and increased applications in batteries ...
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AbstractA review of recent progress in the science and applications of solid electrolytes is given. This includes the development of new materials, both as ionic and mixed ionic/electronic conductors, improved understanding of conduction mechanisms and the factors that led to high ionic conductivity in solids and increased applications in batteries ...
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Formation of a Solid Electrolyte Interphase in Hydrate-Melt Electrolytes
ACS Applied Materials & Interfaces, 2019Aqueous Li-ion batteries using nonflammable aqueous electrolytes have been continuously studied to achieve the ultimate safety of the battery system. However, they have a major drawback of low operation voltage resulting from the narrow potential window of aqueous electrolytes.
Seongjae Ko, Yuki Yamada, Atsuo Yamada
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Solid Ionics—Solid Electrolyte Cells
Journal of The Electrochemical Society, 1970The characteristics of the solid electrolyte cells Ag /RbAg4IJTe and Ag/RbAg4Is/Se have been studied. The open-circui t voltages of these solid electrolyte cells were 0.217V and 0.265V, respectively, at 20~ These cells could discharge in the temperature range of --75 ~ to 150~ Only a small polarization was observed at relat ively high current density ...
Takehiko Takahashi, Osamu Yamamoto
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Russian Journal of Electrochemistry, 2010
Studies of composite ionic conductors are overviewed. Mechanisms of defect formation at ionic crystal surfaces and at interphase boundaries in the composites are discussed; the Stern model that allows calculating surface potential has been involved.
N. F. Uvarov +2 more
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Studies of composite ionic conductors are overviewed. Mechanisms of defect formation at ionic crystal surfaces and at interphase boundaries in the composites are discussed; the Stern model that allows calculating surface potential has been involved.
N. F. Uvarov +2 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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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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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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