Ultrathin damage-tolerant flexible metal interconnects reinforced by in-situ graphene synthesis

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%
• 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%
• Impact Toughness 12%
• Electrical Conductivity 12%
• Nanocomposite 12%
• Cyclic Loading 12%
• Fatigue Life 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%
• Nanocomposites 12%
• Palladium 12%
• Metal Interface 12%
• Fatigue of Materials 12%