Results 211 to 220 of about 17,290 (266)

Towards practical lithium-metal anodes

Chemical Society Reviews, 2020
Lithium ion batteries cannot meet the ever increasing demands of human society. Thus batteries with Li-metal anodes are eyed to revive. Here we summarize the recent progress in developing practical Li-metal anodes for various Li-based batteries.
Xin Zhang, Yongan Yang, Zhen Zhou
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Lithium Host:Advanced architecture components for lithium metal anode

Energy Storage Materials, 2021
Abstract With the increasing demand for high energy and power energy storage devices, lithium metal batteries have received widespread attention. Li metal has long been regarded as an ideal candidate for negative electrode due to its high theoretical specific capacity (3860 mAh g−1) and low redox potential (-3.04 V vs.
Yifeng Cheng, Jinbiao Chen, Yuanmao Chen, Xi Ke, Jie Li, Yong Yang, Zhicong Shi   +6 more
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Lithium Metal Anode

2021
Deposition and dissolution of lithium metal have been investigated in an equimolar mixture of lithium bis(trifluoromethylsulfonyl)amide (LiTFSA) and glyme [triglyme (G3) or tetraglyme (G4)] solvate ionic liquid. The limiting current for deposition of lithium was not observed probably because of the high concentration of lithium species and a decrease ...
Naoki Tachikawa, Nobuyuki Serizawa, Yasushi Katayama   +2 more
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Columnar Lithium Metal Anodes

Angewandte Chemie, 2017
AbstractThe rechargeable lithium metal anode is of utmost importance for high‐energy‐density batteries. Regulating the deposition/dissolution characteristics of Li metal is critical in both fundamental researches and practical applications. In contrast to gray Li deposits featured with dendritic and mossy morphologies, columnar and uniform Li is herein
Xue‐Qiang Zhang, Xiang Chen, Rui Xu, Xin‐Bing Cheng, Hong‐Jie Peng, Rui Zhang, Jia‐Qi Huang, Qiang Zhang   +7 more
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Lithium Metal Anodes with Nonaqueous Electrolytes

Chemical Reviews, 2020
High-energy rechargeable lithium (Li) metal batteries (LMBs) with Li metal anode (LMA) were first developed in the 1970s, but their practical applications have been hindered by the safety and low-efficiency concerns related to LMA. Recently, a worldwide effort on LMA-based rechargeable LMBs has been revived to replace graphite-based, Li-ion batteries ...
Ji-Guang Zhang, Wu Xu, Jie Xiao, Xia Cao, Jun Liu   +4 more
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Carbonlithium anodes for lithium secondary batteries

Journal of Power Sources, 1992
Abstract For the development of a superior anode for practical lithium secondary batteries, the carbonlithium composite anode has been studied. As a carbon material, the carbon fiber M46 was mainly studied in this study. This material was proved to be highly reversible in comparison with other carbon materials.
N. Imanishi, S. Ohashi, T. Ichikawa, Y. Takeda, O. Yamamoto, R. Kanno   +5 more
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Lithium anode for lithium-air secondary batteries

Journal of Power Sources, 2008
Abstract The lithium ion conducting solid lithium phosphorous nitride (LiPON) has been sputtered on the water-stable NASICON-type lithium ion conducting solid electrolyte Li 1+ x + y Al x Ti 2− x P 3− y Si y O 12 (LATP). The stability and the interface resistance of the Li–Al/LiPON/LATP/LiPON/Li–Al cell have been examined.
Nobuyuki Imanishi, Satoshi Hasegawa, Tao Zhang, Atushi Hirano, Yasuo Takeda, Osamu Yamamoto   +5 more
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Lithium-Anode Protection in Lithium–Sulfur Batteries

Trends in Chemistry, 2019
Lithium–sulfur (Li–S) batteries show significant promise as next-generation energy-storage devices due to their high energy density (2600 Wh kg-1). However, the severe shuttling of polysulfide intermediates and low Coulombic efficiency during operation induce rapid capacity loss, hindering their practical applications.
Chong Yan, Xue-Qiang Zhang, Jia-Qi Huang, Quanbing Liu, Qiang Zhang   +4 more
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