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Prospects for dendrite-free cycling of li metal batteries
Qing Chen, Ke Geng,
Karl Sieradzki
Materials Science and Engineering
Mechanical and Aerospace Engineering
Renewable Energy Electrochemistry, Center for (CREE)
Chemical Engineering
Engineering of Matter, Transport and Energy, School for (IAFSE-SEMTE)
Research output
:
Contribution to journal
›
Article
›
peer-review
35
Scopus citations
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Physics & Astronomy
dendrites
89%
electric batteries
86%
solid electrolytes
68%
cycles
56%
electrodes
52%
dissolving
51%
metals
43%
causes
34%
pitting
34%
pinholes
31%
crystal surfaces
30%
electrodeposition
29%
elimination
27%
solubility
25%
electrolytes
23%
nucleation
21%
grain boundaries
20%
impurities
18%
single crystals
17%
Engineering & Materials Science
Dendrites (metallography)
100%
Solid electrolytes
80%
Electrodes
65%
Dissolution
60%
Single crystal surfaces
57%
Metals
54%
Electrodeposition
36%
Pitting
31%
Solubility
31%
Nucleation
29%
Grain boundaries
28%
Electrolytes
27%
Impurities
27%
Chemical Compounds
Solid Electrolyte
56%
Behavior as Electrode
42%
Dissolution
42%
Metal
38%
Single Crystal Surface
37%
Grain Boundary
29%
Polycrystalline Solid
25%
Electrodeposition
23%
Nucleation
23%
Solubility
17%