Journal ArticleDOI
The interplay between solid electrolyte interface (SEI) and dendritic lithium growth
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TLDR
In this article, a straightforward approach is proposed to induce the growth of detrimental dendritic Li so the cells are “shorted” frequently and consistently, based on this new protocol, various electrolytes are revisited and the SEI derived are compared and quantified, providing new insights for addressing the challenges in rechargeable Li metal battery technologies.About:
This article is published in Nano Energy.The article was published on 2017-10-01. It has received 177 citations till now.read more
Citations
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Journal ArticleDOI
A Material Perspective of Rechargeable Metallic Lithium Anodes
Bin Li,Ying Wang,Shubin Yang +2 more
Journal ArticleDOI
Capillary Encapsulation of Metallic Potassium in Aligned Carbon Nanotubes for Use as Stable Potassium Metal Anodes
Lei Qin,Yu Lei,Huwei Wang,Jiahui Dong,Yiying Wu,Dengyun Zhai,Feiyu Kang,Ying Tao,Quan-Hong Yang +8 more
Journal ArticleDOI
Lithium sulfur batteries with compatible electrolyte both for stable cathode and dendrite-free anode
Huijun Yang,Ahmad Naveed,Qinyu Li,Cheng Guo,Jiahang Chen,Jingyu Lei,Jun Yang,Yanna Nuli,Jiulin Wang +8 more
TL;DR: Li et al. as discussed by the authors applied a promising fluoroethylene carbonate (FEC)-based electrolyte for Li-S batteries to fully exploit its compatibility with both sulfur composite cathode and lithium anode.
Journal ArticleDOI
Artificial Solid-Electrolyte Interphase Enabled High-Capacity and Stable Cycling Potassium Metal Batteries
Huwei Wang,Junyang Hu,Jiahui Dong,Kah Chun Lau,Lei Qin,Yu Lei,Baohua Li,Dengyun Zhai,Yiying Wu,Feiyu Kang +9 more
Journal ArticleDOI
Polyolefin‐Based Janus Separator for Rechargeable Sodium Batteries
Dong Zhou,Xiao Tang,Xin Guo,Peng Li,Devaraj Shanmukaraj,Hao Liu,Xiaochun Gao,Yizhou Wang,Teófilo Rojo,Michel Armand,Guoxiu Wang +10 more
TL;DR: A versatile "grafting-filtrating" strategy to controllably tune commercial polyolefin separators for sodium batteries, which show high capacity, extended cycling life with lean electrolyte loading.
References
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Nonaqueous liquid electrolytes for lithium-based rechargeable batteries.
TL;DR: The phytochemical properties of Lithium Hexafluoroarsenate and its Derivatives are as follows: 2.2.1.
Journal ArticleDOI
Reviving the lithium metal anode for high-energy batteries
TL;DR: The current understanding on Li anodes is summarized, the recent key progress in materials design and advanced characterization techniques are highlighted, and the opportunities and possible directions for future development ofLi anodes in applications are discussed.
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"Water-in-salt" electrolyte enables high-voltage aqueous lithium-ion chemistries.
Liumin Suo,Oleg Borodin,Tao Gao,Marco Olguin,Janet Ho,Xiulin Fan,Chao Luo,Chunsheng Wang,Kang Xu +8 more
TL;DR: A highly concentrated aqueous electrolyte whose window was expanded to ~3.0 volts with the formation of an electrode-electrolyte interphase, which could potentially be replaced with a safer aQueous alternative to lithium-ion batteries.
Journal ArticleDOI
Review of selected electrode–solution interactions which determine the performance of Li and Li ion batteries
TL;DR: In this article, the performance of Li, Li-C anodes and Li x MO y cathodes depends on their surface chemistry in solutions, which either contribute to electrode stabilization or to capacity fading due to an increase in the electrodes' impedance.
Journal ArticleDOI
High rate and stable cycling of lithium metal anode
Jiangfeng Qian,Wesley A. Henderson,Wu Xu,Priyanka Bhattacharya,Mark H. Engelhard,Oleg Borodin,Ji-Guang Zhang +6 more
TL;DR: It is reported that the use of highly concentrated electrolytes composed of ether solvents and the lithium bis(fluorosulfonyl)imide salt enables the high-rate cycling of a lithium metal anode at high Coulombic efficiency (up to 99.1%) without dendrite growth.