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Keyphrases
Ultrathin
100%
Graphene
100%
Chemical Vapor Deposition
100%
Reinforced
100%
Metal Interconnect
100%
Damage Tolerant
100%
In-situ Graphene
100%
Flexible Electronics
66%
Graphene Coating
66%
Damage Tolerance
66%
High Performance
33%
Large Deformation
33%
Fracture Toughness
33%
Electrical Resistance
33%
Thin Metal Films
33%
Submicron
33%
Nanocomposite Materials
33%
High Stiffness
33%
Elastomeric Substrate
33%
Nanometre
33%
Fatigue Life
33%
Cyclic Loading
33%
Patterned Metal Films
33%
High Strain
33%
Palladium Film
33%
Reliable Performance
33%
Electromechanical Performance
33%
Mechanical Fatigue
33%
Good Electrical Conductivity
33%
Pd Thin Film
33%
Graphene Composites
33%
Electronic Interconnection
33%
Mechanical Fracture
33%
Strain Range
33%
In Situ Synthesis
33%
Fragmentation Model
33%
Flexible Electronic Devices
33%
Bottom-up Deposition
33%
Graphene-metal Interface
33%
Coffin-Manson
33%
Fatigue Toughness
33%
Engineering
Graphene
100%
Interconnects
100%
Thin Films
62%
Flexible Electronics
37%
Chemical Vapor Deposition
37%
Vapor Deposition
37%
Damage Tolerance
25%
Large Deformation
12%
Nanometre
12%
Conductive
12%
Experimental Observation
12%
Nanocomposite
12%
Cyclic Loading
12%
Fatigue Life
12%
Fracture Strength
12%
Electrical Conductivity
12%
Material Science
Graphene
100%
Thin Films
62%
Chemical Vapor Deposition
37%
Metal Film
25%
Damage Tolerance
25%
Film
12%
Fracture Toughness
12%
Electrical Conductivity
12%
Large Deformation
12%
Electrical Resistance
12%
Palladium
12%
Metal Interface
12%
Fatigue of Materials
12%
Nanocomposite
12%