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Electrochemical stability of the next generation lithium batteries
Violetta Arszelewska
RST/Storage of Electrochemical Energy
Research output
:
Thesis
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Dissertation (TU Delft)
263
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Dive into the research topics of 'Electrochemical stability of the next generation lithium batteries'. Together they form a unique fingerprint.
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INIS
lithium
100%
electrolytes
100%
electrochemistry
100%
stability
100%
solid electrolytes
66%
life cycle
66%
liquids
66%
anodes
66%
levels
33%
capacity
33%
energy
33%
units
33%
applications
33%
demand
33%
graphite
33%
energy storage
33%
interfaces
33%
transport
33%
storage
33%
volume
33%
safety
33%
tools
33%
solutions
33%
renewable energy sources
33%
length
33%
slowing-down
33%
electrodes
33%
Material Science
Battery Material
100%
Battery (Electrochemical Energy Engineering)
100%
Electrolyte
100%
Lithium Battery
100%
Electrode
100%
Solid Electrolyte
66%
Liquid
66%
Electronics
33%
Characterization
33%
Engineering
Negative Electrode
66%
Development
66%
Cycle Life
66%
Energy Storage
33%
Storage Capacity
33%
Fundamental Process
33%
Generation System
33%
Safety Concern
33%
Degradation Mechanism
33%
Portable Electronics
33%
Renewable Conversion
33%
Length Scale
33%
Electrochemical Process
33%
Energy Engineering
33%
Chemical Engineering
Lithium
100%