Your search keyword '"McCarty, K. F."' showing total 3 results

1. Kinetics of monolayer graphene growth by segregation on Pd(111).

Author

Mok, H. S., Ebnonnasir, A., Murata, Y., Nie, S., McCarty, K. F., Ciobanu, C. V., and Kodambaka, S.

Subjects

GRAPHENE, NUCLEATION, DENSITY functional theory, PALLADIUM, ADATOMS, MONOMOLECULAR films

Abstract

Using in situ low-energy electron microscopy and density functional theory calculations, we follow the growth of monolayer graphene on Pd(111) via surface segregation of bulk-dissolved carbon. Upon lowering the substrate temperature, nucleation of graphene begins on graphene-free Pd surface and continues to occur during graphene growth. Measurements of graphene growth rates and Pd surface work functions establish that this continued nucleation is due to increasing C adatom concentration on the Pd surface with time. We attribute this anomalous phenomenon to a large barrier for attachment of C adatoms to graphene coupled with a strong binding of the non-graphitic C to the Pd surface. [ABSTRACT FROM AUTHOR]

Published

2014

2. Structure of ultrathin Pd films determined by low-energy electron microscopy and diffraction.

Author

Santos, B., Puerta, J. M., Cerda, J. I., Herranz, T., McCarty, K. F., and de la Figuera, J.

Subjects

PHYSICS research, THIN film devices, LOW energy electron diffraction, PALLADIUM, OPTICAL diffraction, ELECTRON microscopy, MONOMOLECULAR films

Abstract

Palladium (Pd) films have been grown and characterized in situ by low-energy electron diffraction (LEED) and microscopy in two different regimes: ultrathin films 2-6 monolayers (ML) thick on Ru(0001), and ∼20ML thick films on both Ru(0001) and W(110). The thinner films are grown at elevated temperature (750 K) and are lattice matched to the Ru(0001) substrate. The thicker films, deposited at room temperature and annealed to 880 K, have a relaxed in-plane lattice spacing. All the films present an fcc stacking sequence as determined by LEED intensity versus energy analysis. In all the films, there is hardly any expansion in the surface-layer interlayer spacing. Two types of twin-related stacking sequences of the Pd layers are found on each substrate. On W(110) the two fcc twin types can occur on a single substrate terrace. On Ru(0001) each substrate terrace has a single twin type and the twin boundaries replicate the substrate steps. [ABSTRACT FROM AUTHOR]

Published

2010

3. Orientation-dependent work function of graphene on Pd(111).

Author

Murata, Y., Starodub, E., Kappes, B. B., Ciobanu, C. V., Bartelt, N. C., McCarty, K. F., and Kodambaka, S.

Subjects

GRAPHENE, MONOMOLECULAR films, PALLADIUM, OPTICAL diffraction, ELECTRON microscopy, DENSITY functionals, CHARGE transfer, ELECTRON work function

Abstract

Selected-area diffraction establishes that at least six different in-plane orientations of monolayer graphene on Pd(111) can form during graphene growth. From the intensities of low-energy electron microscopy images as a function of incident electron energy, we find that the work functions of the different rotational domains vary by up to 0.15 eV. Density functional theory calculations show that these significant variations result from orientation-dependent charge transfer from Pd to graphene. These findings suggest that graphene electronics will require precise control over the relative orientation of the graphene and metal contacts. [ABSTRACT FROM AUTHOR]

Published

2010