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Anode-free solid-state sodium batteries: navigating the challenges toward high energy density. [PDF]

Chem Sci
Zhao YA, Sun G, Jiang H, Wei Z, Du F.
europepmc   +1 more source

In situ anchoring 2D hexagonal Zn-MOF on MXene toward robust anode-less 5 V-class Li metal batteries. [PDF]

Sci Adv
Tian Y, Pei Z, Luan D, Lou XWD.
europepmc   +1 more source

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3D Printing Lithium Salt towards Dendrite-free Lithium Anodes

Energy Storage Materials, 2021
Abstract Three-dimensional (3D) printing is being progressively utilized to construct various customized architectures for batteries and supercapacitors. Here, 3D printing lithium salt (lithium fluoride, LiF) is developed to construct chemically stable and electrochemically friendly salt scaffolds based on a printable LiF colloidal gel.
Kai Shen, Zhenjiang Cao, Yongzheng Shi, Yongzheng Zhang, Bin Li, Shubin Yang   +5 more
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Electrochemomechanics of lithium dendrite growth

Energy & Environmental Science, 2019
The work demonstrates the electrochemomechanical driving forces, equilibrium, and large deformation kinetics for lithium dendrite growth.
Aniruddha Jana, Sang Inn Woo, K. S. N. Vikrant, R. Edwin García   +3 more
openaire   +1 more source

Lithium Overpotential and Dendrite Formation

ECS Meeting Abstracts, 2015
Lithium metal has a higher theoretical capacity compared to graphite, which is the most commonly used anode material in a lithium ion battery (LIB).[1] Nevertheless, secondary lithium metal batteries have plenty of challenges to overcome, before they could replace the well established LIBs.
Jennifer Heine, Peter Bieker, Martin Winter   +2 more
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Suppression of dendritic lithium growth in lithium metal-based batteries

Chemical Communications, 2018
We describe the challenges of high-energy lithium-metal batteries and outline the future directions that are expected to drive their progress.
Linlin Li, Siyuan Li, Yingying Lu
openaire   +2 more sources

Self-heating–induced healing of lithium dendrites

Science, 2018
Healing away the dendrites The formation of lithium dendrites during charge-discharge cycles limits the development of lithium metal batteries, because the dendrites can cause electrical shorting of the cells. A number of tricks have been used to try to prevent dendrite formation. Li et al.
Lu Li, Swastik Basu, Yiping Wang, Zhizhong Chen, Prateek Hundekar, Baiwei Wang, Jian Shi, Yunfeng Shi, Shankar Narayanan, Nikhil Koratkar   +9 more
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A Dendrite‐Free Lithium/Carbon Nanotube Hybrid for Lithium‐Metal Batteries

Advanced Materials, 2020
AbstractLithium (Li) metal is promising in the next‐generation energy storage systems. However, its practical application is still hindered by the poor cycling performance and serious safety issues for the consequence of dendritic Li. Herein, a dendrite‐free Li/carbon nanotube (CNT) hybrid is proposed, which is fabricated by direct coating molten Li on
Zhi Yong Wang, Zhong Xu Lu, Wei Guo, Qin Luo, Yan Hong Yin, Xian Bin Liu, Ye Sheng Li, Bao Yu Xia, Zi Ping Wu   +8 more
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