Computer simulation of adsorption of Cu atoms on W(100) and W(110) surfaces

We study the CO chemisorption on epitaxial Pd and Pt monolayers grown on W (110), by using a simple tight-binding self-consistent recursion method model. The tr donation, "rr back-donation and the adsorption energy are reduced by the substrate presence. For the atop site above Pd/W (110), however, t

Trimethylsilane (TMSiH) was adsorbed onto a Ge(100) surface at a temperature of Ô150 » 3 ÄC and x-ray photoelectron spectroscopy (XPS) was used to study the resulting surface species as functions of the TMSiH exposure in Langmuir (L). The core-level C 1s, Si 2p and Ge 3d photoelectrons were monitore

We study the chemisorption of hydrogen on epitaxial and incommensurate Pd overlayers deposited on Ta and W ( 1 lo), respectively, within a self-consistent tight-binding recursion-scheme model. The incommensurate films are described by a meanfield Hamiltonian. On the epitaxial layer the H-Pd bonding

## Abstract We modelled the adsorption of benzene, fluorobenzene and meta‐di‐fluorobenzene on Cu(110) by Density Functional Theory. We found that the adsorption configuration depends on the coverage. At high coverage, benzene assumes a tilted position, while at low coverage a horizontal slightly di