Add to ORKGWe study the nucleation and growth of epitaxial graphene on Pt(111) surfaces at the atomic level using scanning tunneling microscopy (STM). Graphene nucleation occurs both near Pt step edges and on Pt terraces, producing hexagonally shaped islands with atomically sharp zigzag edges. Graphene interacts strongly with Pt substrate during growth, by etching and replacement of Pt atoms from step edges, which results in faceting of the Pt steps. The favorable lattice orientations of graphene islands are found to be parallel to those of the Pt substrate, but other orientations are still possible. Grain boundaries are formed when two graphene islands merge with different lattice orientations. Improved growth conditions such as smaller nucleation de...
Hydrocarbon decomposition on transition metals provides a practical way of producing graphene. Here,...
In situ low-energy electron microscopy (LEEM) of graphene growth combined with measurements of the g...
Low-energy electron microscopy (LEEM) reveals a new mode of graphene growth on Ru(0001) in which Ru ...
Póster presentado en la GRAPHEsp2014 (A European Conference/Workshop on the Synthesis, Characterizat...
The nucleation and growth of graphene islands on a Pt(111) surface were examined at temperatures nea...
Epitaxialgrowth process and morphology evolution in the initial growth stages of graphene on Pt (111...
Epitaxialgrowth process and morphology evolution in the initial growth stages of graphene on Pt (111...
The synthesis of centimeter-scale uniform graphene on Pt foils was accomplished via a traditional am...
We study the growth of graphene on a Pt(111) surface in stages by varying the annealing temperature ...
Understanding the connection of graphene with metal surfaces is a necessary step for developing atom...
In situ low-energy electron microscopy (LEEM) of graphene growth combined with measurements of the g...
Platinum atomic layers grown on graphene were investigated by atomic resolution transmission electro...
Platinum atomic layers grown on graphene were investigated by atomic resolution transmission electro...
The nucleation of graphene on a transition metal surface, either on a terrace or near a step edge, i...
Oral presentation given at the European Conference on Surface Crystallography and Dynamics (ECSCD-12...
Hydrocarbon decomposition on transition metals provides a practical way of producing graphene. Here,...
In situ low-energy electron microscopy (LEEM) of graphene growth combined with measurements of the g...
Low-energy electron microscopy (LEEM) reveals a new mode of graphene growth on Ru(0001) in which Ru ...
Póster presentado en la GRAPHEsp2014 (A European Conference/Workshop on the Synthesis, Characterizat...
The nucleation and growth of graphene islands on a Pt(111) surface were examined at temperatures nea...
Epitaxialgrowth process and morphology evolution in the initial growth stages of graphene on Pt (111...
Epitaxialgrowth process and morphology evolution in the initial growth stages of graphene on Pt (111...
The synthesis of centimeter-scale uniform graphene on Pt foils was accomplished via a traditional am...
We study the growth of graphene on a Pt(111) surface in stages by varying the annealing temperature ...
Understanding the connection of graphene with metal surfaces is a necessary step for developing atom...
In situ low-energy electron microscopy (LEEM) of graphene growth combined with measurements of the g...
Platinum atomic layers grown on graphene were investigated by atomic resolution transmission electro...
Platinum atomic layers grown on graphene were investigated by atomic resolution transmission electro...
The nucleation of graphene on a transition metal surface, either on a terrace or near a step edge, i...
Oral presentation given at the European Conference on Surface Crystallography and Dynamics (ECSCD-12...
Hydrocarbon decomposition on transition metals provides a practical way of producing graphene. Here,...
In situ low-energy electron microscopy (LEEM) of graphene growth combined with measurements of the g...
Low-energy electron microscopy (LEEM) reveals a new mode of graphene growth on Ru(0001) in which Ru ...