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Keyphrases
Mediated Interaction
100%
Graphene Oxide
100%
Li4Ti5O12
100%
Poly-L-lysine
100%
Lithium Titanium Oxide
100%
Contact Formation
100%
Lysine
83%
Binder
66%
Rutile
33%
Electrical Conductivity
33%
Nanostructures
16%
Oxides
16%
Solid Electrolyte Interface
16%
Scanning Electron Microscopy
16%
Lithium
16%
X-ray Photoelectron Spectroscopy
16%
Atomic Force Microscopy
16%
Discharge Specific Capacity
16%
Carbon Layer
16%
Composite Materials
16%
Stable Electrode
16%
Functional Materials
16%
Density Functional Calculations
16%
Layer-by-layer Technique
16%
Reduced Graphene Oxide
16%
Characterization Techniques
16%
Crack Formation
16%
Wood
16%
Polyvinylidene Fluoride
16%
Polymeric Binder
16%
Coated Surface
16%
Tation
16%
Adsorbate
16%
Biodegradability
16%
Sputter-deposited
16%
Work Function Difference
16%
Dendrite Formation
16%
Carbon Materials
16%
Scanning Kelvin Probe Force Microscopy (SKPFM)
16%
(111) Surface
16%
Plane Orientation
16%
Conductivity Values
16%
Polyamic Acid
16%
Toxic Solvents
16%
Inactive Materials
16%
Multiphase Composites
16%
Recycling Strategy
16%
Material Science
Titanium Oxide
100%
Lithium
100%
Battery (Electrochemical Energy Engineering)
100%
Graphene Oxide
100%
Titanium Dioxide
100%
Monolayers
66%
Electrical Conductivity
66%
Density
33%
Composite Material
33%
X-Ray Photoelectron Spectroscopy
33%
Scanning Electron Microscopy
33%
Functional Material
33%
Reduced Graphene Oxide
33%
Solid Electrolyte
33%
Crack Formation
33%
Carbon-Based Material
33%
Amino Acids
33%
Oxide Compound
33%
Engineering
Binders
100%
Battery (Electrochemical Energy Engineering)
100%
Graphene Oxide
100%
Electrical Conductivity
40%
Monolayer
40%
Thin Layer
20%
Experimental Result
20%
Discharge Capacity
20%
Ray Photoelectron Spectroscopy
20%
Composite Material
20%
Hydrophilicity
20%
Atomic Force Microscopy
20%
Carbon Layer
20%
Layer Approach
20%
Crack Formation
20%
Solid Electrolyte Interface
20%
Reduced Graphene Oxide
20%
Carbon-Based Material
20%