Journal ArticleDOI
A review of lithium and non-lithium based solid state batteries
Joo Gon Kim,Byungrak Son,Santanu Mukherjee,Nicholas David Schuppert,Alex Bates,Osung Kwon,Moon Jong Choi,Hyun Chung,Sam Park +8 more
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TLDR
A comprehensive review of all aspects of solid state batteries: their design, the materials used, and a detailed literature review of various important advances made in research is provided in this article.About:
This article is published in Journal of Power Sources.The article was published on 2015-05-15. It has received 562 citations till now.read more
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Recent advances in all-solid-state rechargeable lithium batteries
TL;DR: In this article, the authors reviewed the current state of all solid-state lithium batteries with major focus on the material aspects, including inorganic ceramic and organic solid polymer electrolyte materials, and emphasized the importance of the electrolytes and their associated interfaces with electrodes as well as their effects on the battery performance.
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PEO/garnet composite electrolytes for solid-state lithium batteries: From “ceramic-in-polymer” to “polymer-in-ceramic”
TL;DR: In this article, composites consisting of polyethylene-oxide/garnet electrolytes were fabricated for a safe solid-state Li-metal rechargeable battery, which achieved high discharge capacity (139.1% after 100 cycles) and high capacity retention (103.6% with coulombic efficiency of 100% after 50 cycles).
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Lithium ion, lithium metal, and alternative rechargeable battery technologies: the odyssey for high energy density
TL;DR: In this article, the authors place the lithium ion technology in a historical context and give insights into the battery technology diversity that evolved during the past decades and which will, in turn, influence future research and development.
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All solid-state polymer electrolytes for high-performance lithium ion batteries
Liping Yue,Jun Ma,Jianjun Zhang,Jingwen Zhao,Shanmu Dong,Zhihong Liu,Guanglei Cui,Liquan Chen +7 more
TL;DR: In this paper, a series of all solid-state polymer electrolytes based on modified poly (ethylene oxide), polycarbonate, polysiloxane, succinonitrile and organic-inorganic hybrid composite are reviewed in terms of their potential application in lithium ion batteries.
Journal ArticleDOI
Mechanism of Lithium Metal Penetration through Inorganic Solid Electrolytes
Lukas Porz,Lukas Porz,Tushar Swamy,Brian W. Sheldon,Daniel Rettenwander,Till Frömling,Henry L. Thaman,Stefan Berendts,Reinhard Uecker,W. Craig Carter,Yet-Ming Chiang +10 more
TL;DR: In this article, Li deposition is observed and measured on a solid electrolyte in the vicinity of a metallic current collector, and an electrochemomechanical model of plating-induced Li infiltration is proposed.
References
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Journal ArticleDOI
Issues and challenges facing rechargeable lithium batteries
TL;DR: A brief historical review of the development of lithium-based rechargeable batteries is presented, ongoing research strategies are highlighted, and the challenges that remain regarding the synthesis, characterization, electrochemical performance and safety of these systems are discussed.
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Phospho‐olivines as Positive‐Electrode Materials for Rechargeable Lithium Batteries
TL;DR: In this article, the authors showed that a reversible loss in capacity with increasing current density appears to be associated with a diffusion-limited transfer of lithium across the two-phase interface.
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Lithium Batteries and Cathode Materials
TL;DR: This paper will describe lithium batteries in more detail, building an overall foundation for the papers that follow which describe specific components in some depth and usually with an emphasis on the materials behavior.
Journal ArticleDOI
A lithium superionic conductor
Noriaki Kamaya,Kenji Homma,Yuichiro Yamakawa,Masaaki Hirayama,Ryoji Kanno,Masao Yonemura,Takashi Kamiyama,Yuki Kato,Shigenori Hama,Koji Kawamoto,Akio Mitsui +10 more
TL;DR: A lithium superionic conductor, Li(10)GeP(2)S(12) that has a new three-dimensional framework structure that exhibits an extremely high lithium ionic conductivity of 12 mS cm(-1) at room temperature, which represents the highest conductivity achieved in a solid electrolyte, exceeding even those of liquid organic electrolytes.