AVS 57th International Symposium & Exhibition, Paper GR+AS+TF-ThM1

AVS 57th International Symposium & Exhibition
Graphene Focus Topic	Thursday Sessions
Session GR+AS+TF-ThM

Paper GR+AS+TF-ThM1
Contrast Behavior of Carbon Adatom Diffusion and Nucleation in the Initial Stage of Graphene Epitaxial Growth on Stepped Metal Surfaces

Thursday, October 21, 2010, 8:00 am, Room Brazos

Session:	Graphene Synthesis on Metals
Presenter:	H. Chen, University of Tennessee at Knoxville; Oak Ridge National Laboratory
Authors:	H. Chen, University of Tennessee at Knoxville; Oak Ridge National Laboratory W. Zhu, University of Tennessee at Knoxville; Oak Ridge National Laboratory Z. Zhang, Oak Ridge National Laboratory; University of Tennessee at Knoxville
Correspondent:	Click to Email

Using first-principles calculations within density functional theory, we study the energetics and kinetics of carbon adatom diffusion and nucleation on three stepped metal surfaces: Ir(111), Ru(0001) and Cu(111). We find that on the flat surfaces, two carbon atoms repel each other on Ir(111) and Ru(0001), while they prefer to form a dimer on Cu(111). Moreover, the step edges on Ir and Ru surfaces cannot effectively trap single carbon adatoms either, whereas it is strongly favorable to form carbon dimers at the step edges. The different behaviors are attributed to the competition between C-C bonding and different types of C-metal bonding, and the picture is generalized to other C-on-metal systems with predicted results. These findings provide an insight into the understanding of experimentally observed carbon nucleation in the initial stage of graphene epitaxial growth on metal surfaces.

Paper GR+AS+TF-ThM1 Contrast Behavior of Carbon Adatom Diffusion and Nucleation in the Initial Stage of Graphene Epitaxial Growth on Stepped Metal Surfaces

Thursday, October 21, 2010, 8:00 am, Room Brazos

Paper GR+AS+TF-ThM1
Contrast Behavior of Carbon Adatom Diffusion and Nucleation in the Initial Stage of Graphene Epitaxial Growth on Stepped Metal Surfaces