Hard carbons for sodium-ion batteries and beyond
Fei Xie,Fei Xie,Fei Xie,Zhen Xu,Zhenyu Guo,Maria-Magdalena Titirici +5 more
- Vol. 2, Iss: 4, pp 042002
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The article was published on 2020-09-18 and is currently open access. It has received 94 citations till now. The article focuses on the topics: Sodium & Energy storage.read more
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Hard Carbon Anodes for Next-Generation Li-Ion Batteries: Review and Perspective
Lijing Xie,Cheng Tang,Zhihong Bi,Zhihong Bi,Ming-Xin Song,Ya-Feng Fan,Chong Yan,Xiaoming Li,Fangyuan Su,Qiang Zhang,Cheng-Meng Chen +10 more
Journal ArticleDOI
Fast Charging Anode Materials for Lithium‐Ion Batteries: Current Status and Perspectives
Sheng-Yi Li,Kai Wang,Gefei Zhang,Shani Li,Yanan Xu,Xudong Zhang,Xiang Zhang,Shuang Zheng,Xianzhong Sun,Yanwei Ma +9 more
TL;DR: In this paper , a review summarizes the current status in the exploration of fast charging anode materials, mainly including the critical challenge of achieving fast charging capability, the inherent structures and lithium storage mechanisms of various anode material, as well as the recent progress to improve the rate performance involving morphology regulation, structure design, surface/interface modification, and forming multiphase systems.
Journal ArticleDOI
2021 roadmap for sodium-ion batteries
Nuria Tapia-Ruiz,A. Robert Armstrong,Hande Alptekin,Marco Amores,Heather Au,Jerry Barker,Rebecca Boston,William R. Brant,Jake M. Brittain,Yue Chen,Manish Chhowalla,Yongseok Choi,Sara I. R. Costa,Maria Crespo Ribadeneyra,Serena A. Cussen,Edmund J. Cussen,William I. F. David,Aamod V. Desai,Stewart A. M. Dickson,Emmanuel I. Eweka,Juan Forero-Saboya,Clare P. Grey,John M. Griffin,Peter Gross,Xiao Hua,John T. S. Irvine,Patrik Johansson,Martin O. Jones,Martin Karlsmo,Emma Kendrick,Eun Jeong Kim,Oleg Kolosov,Zhuangnan Li,Stijn F. L. Mertens,Ronnie Mogensen,Laure Monconduit,Russell E. Morris,Andrew J. Naylor,Shahin Nikman,Christopher A. O’Keefe,Darren M. C. Ould,Robert G. Palgrave,Philippe Poizot,Alexandre Ponrouch,Stéven Renault,Emily M. Reynolds,Ashish Rudola,Ruth Sayers,David O. Scanlon,Sudeshna Sen,Valerie R. Seymour,Begoña Silván,Moulay Tahar Sougrati,Lorenzo Stievano,Grant S. Stone,Christopher I Thomas,Maria-Magdalena Titirici,Jincheng Tong,Thomas J. Wood,Dominic S. Wright,Reza Younesi +60 more
TL;DR: In this article, the authors provide an extensive review by experts in academia and industry of the current state of the art in 2019 and the different research directions and strategies currently underway to improve the performance of sodium-ion batteries.
Prototype Sodium-Ion Batteries Using Air-Stable and Co/Ni-Free O3-Layered Metal Oxide Cathode
TL;DR: A prototype rechargeable sodium-ion battery using an O3-Na0.2 cathode and a hard carbon anode is demonstrated to show an energy density of 210 W h kg(-1) , a round-trip energy efficiency of 90%, a high rate capability (up to 6C rate), and excellent cycling stability.
References
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Electrical Energy Storage for the Grid: A Battery of Choices
TL;DR: The battery systems reviewed here include sodium-sulfur batteries that are commercially available for grid applications, redox-flow batteries that offer low cost, and lithium-ion batteries whose development for commercial electronics and electric vehicles is being applied to grid storage.
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Challenges for Rechargeable Li Batteries
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TL;DR: In this paper, the authors reviewed the challenges for further development of Li rechargeable batteries for electric vehicles and proposed a nonflammable electrolyte with either a larger window between its lowest unoccupied molecular orbital and highest occupied molecular orbital (HOMO) or a constituent that can develop rapidly a solid/ electrolyte-interface (SEI) layer to prevent plating of Li on a carbon anode during a fast charge of the battery.
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Sodium‐Ion Batteries
TL;DR: In this paper, the status of ambient temperature sodium ion batteries is reviewed in light of recent developments in anode, electrolyte and cathode materials, including high performance layered transition metal oxides and polyanionic compounds.
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Ammonia as a case study for the spontaneous ionization of a simple hydrogen-bonded compound
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