Dissociative adsorption of methanol on palladium

The adsorption, desorption and dissociation of methanol on thin film nickel oxide surfaces grown on a Ni{ 1 lo} substrate has been investigated using RAIRS. Two thin film oxides have been prepared at two different temperatures (300 and 570-650 K), referred to as the low-temperature (low 7') and high

The influence of molecular vibrations on dissociative adsorption is studied by six-dimensional quantum dynamical calculations. For the system H2 at Pd (100), which possesses non-activated pathways, it is shown that large vibrational effects exist and that they are not due to a strongly curved reacti

Thermal energy atom scattering (TEAS) is used to determine the initial sticking probability So for dissociative chemisorption of Oe on Ag( I 1 I ). Mixed beams of He and O2 are used to study Se as a function of energy of the molecule (MBTEAS) At thermal energies S, is about 3.5 x 10m6. It drops to i

First principles calculations of the potential energy surface for Hz dissociation on the ( 100) surface of Cu are presented, based on a plane-wave pseudo-potential formalism within local density functional theory. Among dissociation paths with the molecule parallel to the surface, the most favourabl

A simple quantum chemical theory of dissociative adsorption is introduced and applied to the chcmisorption of hydrogen on copper. Hydrogen is predicted to chcmisorb more readily on the stepped (311) surface than on either of its component low index fa;ILcs.