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Revisiting the Role of Physical Confinement and Chemical Regulation of 3D Hosts for Dendrite-Free Li Metal Anode
Nano-Micro Letters ( IF 31.6 ) Pub Date : 2022-09-14 , DOI: 10.1007/s40820-022-00932-3 Shufen Ye 1 , Xingjia Chen 1 , Rui Zhang 2 , Yu Jiang 3 , Fanyang Huang 1 , Huijuan Huang 1 , Yu Yao 1 , Shuhong Jiao 1 , Xiang Chen 4 , Qiang Zhang 4 , Yan Yu 1, 5
中文翻译:
重新审视 3D 主体的物理限制和化学调节对无枝晶锂金属负极的作用
更新日期:2022-09-15
Nano-Micro Letters ( IF 31.6 ) Pub Date : 2022-09-14 , DOI: 10.1007/s40820-022-00932-3 Shufen Ye 1 , Xingjia Chen 1 , Rui Zhang 2 , Yu Jiang 3 , Fanyang Huang 1 , Huijuan Huang 1 , Yu Yao 1 , Shuhong Jiao 1 , Xiang Chen 4 , Qiang Zhang 4 , Yan Yu 1, 5
Affiliation
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The two-dimensional nanoarray with excellent physical confinement is more promising to facilitate uniform Li+ flow and electric field.
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Li3N with superior chemical regulation provides nucleation sites, accelerates the replenishment of consumed Li+, and achieves dendrite-free morphology.
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The synergistic effect of physical confinement and chemical regulation achieves superior electrochemical performance at high current density and areal capacity.
中文翻译:
重新审视 3D 主体的物理限制和化学调节对无枝晶锂金属负极的作用
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具有优异物理限制的二维纳米阵列更有希望促进均匀的Li +流动和电场。
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具有优异化学调控的Li 3 N提供成核位点,加速消耗的Li +的补充,并实现无枝晶形态。
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物理限制和化学调节的协同作用在高电流密度和面容量下实现了优异的电化学性能。
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