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In situ morphological studies of lithium electrodes by atomic force microscopy (AFM)
D. Aurbach
, Y. Cohen
Department of Chemistry
Research output
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peer-review
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Keyphrases
In Situ
100%
Lithium Electrode
100%
Atomic Force Microscopy
100%
Li Metal Electrode
100%
Morphological Study
100%
Electrolyte Solution
66%
Li-ion Battery
66%
Battery Electrolyte
66%
LiPF6
33%
Propylene Carbonate
33%
Ethylene Carbonate
33%
Argon Atmosphere
33%
Electrode Surface
33%
Dimethyl Carbonate
33%
Highly Sensitive
33%
Solution Composition
33%
Microscopy System
33%
Repeated Scans
33%
Glove Box
33%
Working Station
33%
Anodic Process
33%
Pure Argon
33%
Contact Mode
33%
Immersion Method
33%
Cathodic Process
33%
Alkyl Carbonate
33%
In Situ Atomic Force Microscopy
33%
Material Science
Lithium
100%
Battery (Electrochemical Energy Engineering)
100%
Morphology
100%
Carbon Dioxide
50%
Engineering
Atomic Force Microscopy
100%
Battery (Electrochemical Energy Engineering)
66%
Electrode Surface
33%
Applicability
33%
Pronounced Effect
33%
Contact Mode
33%
Glove Box
33%