Detail publikace
Studium superstuktur NO na povrchu Pd(111) pomocí LEED.
KOSTELNÍK, P. ŠIKOLA, T. SCHMID, M. VARGA, P.
Český název
Studium superstuktur NO na povrchu Pd(111) pomocí LEED.
Anglický název
A LEED study of NO superstructures on the Pd(111) surface
Typ
článek v časopise - ostatní, Jost
Jazyk
en
Originální abstrakt
We have examined two adsorption structures of NO on the Pd(111) surface and the transformation between them. Low-energy electron diffraction (LEED) I (V ) curves of the Pd(111)-p(2 x 2)-NO and Pd(111)-c(4 x 2)-NO surface structures were acquired and analyzed using tensor LEED. Our structural models confirm a previous study by scanning tunneling microscopy and DFT (Hansen et al 2002 Surf. Sci. 496 1). In the c(4 x 2)-NO structure, which forms at an NO coverage of 0.5 monolayers (ML), the NO molecules occupy fcc and hcp hollow sites and are almost upright with only slight tilting, possibly related to NO-NO repulsion. In the p(2 x 2)-NO structure (0.75 ML), with two NO molecules in hollow sites and one in an on-top site, we find strong tilting of the on-top molecule. Upon heating, thermal desorption of NO leads to a transition from the p(2 x 2) to the c(4 x 2) structure, which leads to splitting of the diffraction spots and/or streaky spots. The transition is discussed in terms of domain walls.
Český abstrakt
Byly analyzovány dvě struktury NO na povrchu Pd(111): Pd(111)-p(2 x 2)-NO a Pd(111)-c(4 x 2)-NO a jejich vzájemný přechod pomocí metody tensor LEED.
Anglický abstrakt
We have examined two adsorption structures of NO on the Pd(111) surface and the transformation between them. Low-energy electron diffraction (LEED) I (V ) curves of the Pd(111)-p(2 x 2)-NO and Pd(111)-c(4 x 2)-NO surface structures were acquired and analyzed using tensor LEED. Our structural models confirm a previous study by scanning tunneling microscopy and DFT (Hansen et al 2002 Surf. Sci. 496 1). In the c(4 x 2)-NO structure, which forms at an NO coverage of 0.5 monolayers (ML), the NO molecules occupy fcc and hcp hollow sites and are almost upright with only slight tilting, possibly related to NO-NO repulsion. In the p(2 x 2)-NO structure (0.75 ML), with two NO molecules in hollow sites and one in an on-top site, we find strong tilting of the on-top molecule. Upon heating, thermal desorption of NO leads to a transition from the p(2 x 2) to the c(4 x 2) structure, which leads to splitting of the diffraction spots and/or streaky spots. The transition is discussed in terms of domain walls.
Klíčová slova česky
NO, PD(111), tensor LEED, superstruktura
Klíčová slova anglicky
NO, PD(111), tensor LEED, superstructure
Rok RIV
2009
Vydáno
16.03.2009
ISSN
0953-8984
Časopis
Journal of Physics: Condensed Matter
Ročník
21
Číslo
13
Strany od–do
134005-1–134005-7
Počet stran
7
BIBTEX
@article{BUT47161,
author="Petr {Kostelník} and Tomáš {Šikola} and Michael {Schmid} and P. {Varga},
title="A LEED study of NO superstructures on the Pd(111) surface",
journal="Journal of Physics: Condensed Matter",
year="2009",
volume="21",
number="13",
month="March",
pages="134005-1--134005-7",
issn="0953-8984"
}