Add to ORKGEtching with atomic hydrogen, as a preparation step before the high-temperature growth process of graphene onto a thin 3C-SiC film grown on Si(111), greatly improves the structural quality of topmost graphene layers. Pit formation and island coalescence, which are typical of graphene growth by SiC graphitization, are quenched and accompanied by widening of the graphene domain sizes to hundreds of nanometers, and by a significant reduction in surface roughness down to a single substrate bilayer. The surface reconstructions expected for graphene and the underlying layer are shown with atomic resolution by scanning tunnelling microscopy. Spectroscopic features typical of graphene are measured by core-level photoemission and Raman spectroscopy
We analyse the effects of substrate polishing and of the epilayer thickness on the quality of graphe...
The formation of epitaxial graphene on SiC(0001) surfaces is studied using atomic force microscopy, ...
The properties of epitaxial graphene on the C-face of SiC are investigated using comprehensive struc...
Etching with atomic hydrogen, as a preparation step before the high-temperature growth process of gr...
Etching with atomic hydrogen, as a preparation step before the high-temperature growth process of gr...
Etching with atomic hydrogen as a preparation step before the high-temperature growth process of gra...
Growing graphene on SiC thin films on Si is a cheaper alternative to the growth on bulk SiC, and for...
International audienceEpitaxial graphene films grown on silicon carbide SiC substrate by solid state...
International audienceEpitaxial graphene films grown on silicon carbide SiC substrate by solid state...
International audienceEpitaxial graphene films grown on silicon carbide SiC substrate by solid state...
International audienceEpitaxial graphene films grown on silicon carbide SiC substrate by solid state...
International audienceEpitaxial graphene films grown on silicon carbide SiC substrate by solid state...
International audienceEpitaxial graphene films grown on silicon carbide SiC substrate by solid state...
This thesis is a step forward in understanding the growth of graphene, a single layer of carbon atom...
We analyse the effects of substrate polishing and of the epilayer thickness on the quality of graphe...
We analyse the effects of substrate polishing and of the epilayer thickness on the quality of graphe...
The formation of epitaxial graphene on SiC(0001) surfaces is studied using atomic force microscopy, ...
The properties of epitaxial graphene on the C-face of SiC are investigated using comprehensive struc...
Etching with atomic hydrogen, as a preparation step before the high-temperature growth process of gr...
Etching with atomic hydrogen, as a preparation step before the high-temperature growth process of gr...
Etching with atomic hydrogen as a preparation step before the high-temperature growth process of gra...
Growing graphene on SiC thin films on Si is a cheaper alternative to the growth on bulk SiC, and for...
International audienceEpitaxial graphene films grown on silicon carbide SiC substrate by solid state...
International audienceEpitaxial graphene films grown on silicon carbide SiC substrate by solid state...
International audienceEpitaxial graphene films grown on silicon carbide SiC substrate by solid state...
International audienceEpitaxial graphene films grown on silicon carbide SiC substrate by solid state...
International audienceEpitaxial graphene films grown on silicon carbide SiC substrate by solid state...
International audienceEpitaxial graphene films grown on silicon carbide SiC substrate by solid state...
This thesis is a step forward in understanding the growth of graphene, a single layer of carbon atom...
We analyse the effects of substrate polishing and of the epilayer thickness on the quality of graphe...
We analyse the effects of substrate polishing and of the epilayer thickness on the quality of graphe...
The formation of epitaxial graphene on SiC(0001) surfaces is studied using atomic force microscopy, ...
The properties of epitaxial graphene on the C-face of SiC are investigated using comprehensive struc...