Add to ORKGSpiral growth of various nanomaterials including some two-dimensional (2D) transition metal dichalcogenides had recently been experimentally realized using chemical vapor deposition (CVD). However, such growth that is driven by screw dislocation remained elusive for graphene and is rarely discussed because of the use of metal catalysts. In this work, we show that formation of few-layer graphene (FLG) with a spiral structure driven by screw dislocation can be obtained alongside FLG having a concentric layered structure formed by interfacial nucleation (nucleation at the graphene/Cu interface) using Cu-catalyzed ambient pressure CVD. Unlike commonly reported FLG grown by interfacial nucleation where the second layer is grown independently ben...
Aside from unusual properties of monolayer graphene, bilayer has been shown to have even more intere...
AbstractThe crystallinity of graphene flakes and their orientation with respect to the Cu(111) subst...
Graphene grown on metal catalysts with low carbon solubility is a highly competitive alternative to ...
Spiral growth of various nanomaterials including some two-dimensional (2D) transition metal dichalco...
Spiral growth of various nanomaterials including some two-dimensional (2D) transition metal dichalco...
The morphology of as-grown graphene in chemical vapor deposition (CVD) experiments is sensitive to t...
The graphene is easily grown on polycrystalline copper foils using metal-catalyzed chemical vapor de...
Mono-layer graphene shows zero-bandgap dispersion relation which differ from bi- and multi-layer gra...
We show that aligned rectangular few layer graphene (FLG) domains can be produced on Cu surfaces usi...
Hexagonal-shaped single crystal domains of few layer graphene (FLG) are synthesized on copper foils ...
Graphene is a promising material for electronic and mechanical applications due to its excellent cha...
We show that aligned rectangular few layer graphene (FLG) domains can be produced on Cu surfaces usi...
Hexagonal-shaped single crystal domains of few layer graphene (FLG) are synthesized on copper foils ...
Graphene is a star material due to its intriguing electronic, mechanical, thermal and chemical prope...
Two-dimensional (2D) layered metal dichalcogenides can form spiral nanostructures by a screw-disloca...
Aside from unusual properties of monolayer graphene, bilayer has been shown to have even more intere...
AbstractThe crystallinity of graphene flakes and their orientation with respect to the Cu(111) subst...
Graphene grown on metal catalysts with low carbon solubility is a highly competitive alternative to ...
Spiral growth of various nanomaterials including some two-dimensional (2D) transition metal dichalco...
Spiral growth of various nanomaterials including some two-dimensional (2D) transition metal dichalco...
The morphology of as-grown graphene in chemical vapor deposition (CVD) experiments is sensitive to t...
The graphene is easily grown on polycrystalline copper foils using metal-catalyzed chemical vapor de...
Mono-layer graphene shows zero-bandgap dispersion relation which differ from bi- and multi-layer gra...
We show that aligned rectangular few layer graphene (FLG) domains can be produced on Cu surfaces usi...
Hexagonal-shaped single crystal domains of few layer graphene (FLG) are synthesized on copper foils ...
Graphene is a promising material for electronic and mechanical applications due to its excellent cha...
We show that aligned rectangular few layer graphene (FLG) domains can be produced on Cu surfaces usi...
Hexagonal-shaped single crystal domains of few layer graphene (FLG) are synthesized on copper foils ...
Graphene is a star material due to its intriguing electronic, mechanical, thermal and chemical prope...
Two-dimensional (2D) layered metal dichalcogenides can form spiral nanostructures by a screw-disloca...
Aside from unusual properties of monolayer graphene, bilayer has been shown to have even more intere...
AbstractThe crystallinity of graphene flakes and their orientation with respect to the Cu(111) subst...
Graphene grown on metal catalysts with low carbon solubility is a highly competitive alternative to ...