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, 2020
Lithium (Li) metal anodes have been considered as the “Holy Grail” for next-generation batteries due to their high theoretical capacity and low redox potential.
Hanyu Huo +11 more
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Lithium (Li) metal anodes have been considered as the “Holy Grail” for next-generation batteries due to their high theoretical capacity and low redox potential.
Hanyu Huo +11 more
semanticscholar +1 more source
Digital Twin‐Driven All‐Solid‐State Battery: Unraveling the Physical and Electrochemical Behaviors
Advanced Energy Materials, 2020The digital twin technique has been broadly utilized to efficiently and effectively predict the performance and problems associated with real objects via a virtual replica. However, the digitalization of twin electrochemical systems has not been achieved
Joon-gi Park +6 more
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Polyacetylene Solid‐State Batteries
Journal of The Electrochemical Society, 1985The present report summarizes the performances of the solid-state batteries using a superionic conductor as solid electrolyte and polyacetylene as electrode material. Two types of cells have been tested. A first class uses the mixed ionic solid RbAg/sub 4/I/sub 5/ together with a silver anode. The second one uses ..beta..
F. Bénière +5 more
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Passivation of Cathode-Electrolyte Interface for 5V-Class All-Solid-State Battery.
ACS Applied Materials and Interfaces, 2020All-solid-state battery is a potentially superior alternative to state-of-art lithium-ion battery owing to its merits in abuse tolerance, packaging, energy density and operable temperature ranges.
Gaozhan Liu +8 more
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Visualizing Chemomechanical Degradation of a Solid-State Battery Electrolyte
ACS Energy Letters, 2019Transformations at interfaces between solid-state electrolytes (SSEs) and lithium metal electrodes can lead to high impedance and capacity decay during cycling of solid-state batteries, but the links between structural/chemical/mechanical evolution of ...
Jared Tippens +9 more
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ACS Applied Materials and Interfaces, 2019
Protective coatings on cathode active materials have become paramount for the implementation of solid-state batteries; however, the development of coatings lacks the understanding of the necessary coating properties.
Takashi Nakamura +4 more
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Protective coatings on cathode active materials have become paramount for the implementation of solid-state batteries; however, the development of coatings lacks the understanding of the necessary coating properties.
Takashi Nakamura +4 more
semanticscholar +1 more source
1997
This chapter discusses the applications of solid state ionic materials as solid state battery components within the framework. It highlights some recent solid state battery and microbattery developments. Solid state ionic materials have been extensively developed, and applications of solid elertrolytes as well as insertion compounds have begun to ...
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This chapter discusses the applications of solid state ionic materials as solid state battery components within the framework. It highlights some recent solid state battery and microbattery developments. Solid state ionic materials have been extensively developed, and applications of solid elertrolytes as well as insertion compounds have begun to ...
openaire +1 more source
Solid state batteries using vitreous solid electrolytes
Solid State Ionics, 1986Abstract Solid state cells of the configuration Li/2.5LiI·Li 4 P 2 S 7 /TiS 2 have been constructed and tested between -40°C and +150°C. Continuous discharge current density capabilities range from 2μA/cm 2 at low temperature to >800μA/cm 2 at high temperature.
J AKRIDGE, H VOURLIS
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Challenges in speeding up solid-state battery development
Nature Energy, 2023J. Janek, W. Zeier
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1990
Significant resources have been devoted to the investigation of solid electrolytes since the early 1960s with the beta-aluminas having had the most monetary resources expended in R&D of any solid electrolyte. The only solid state cell which has achieved commercial success is the Li/I2 cell and it is probably not truly solid state [1].
openaire +1 more source
Significant resources have been devoted to the investigation of solid electrolytes since the early 1960s with the beta-aluminas having had the most monetary resources expended in R&D of any solid electrolyte. The only solid state cell which has achieved commercial success is the Li/I2 cell and it is probably not truly solid state [1].
openaire +1 more source