The vibrational frequencies of adsorbed SO2

lsosteric and integral heats of adsorption of lenon on Crafod have been derermmed calorImetncaUy at 195 5 ii and at surface coverages of up to 1 1 The limitmg heat of adsorptlon for (he homogeneous surface at zero coverage IS estimated to be 17.3 f 0 2 kJ mol-'. Frequencies of vrbration of an adsorb

A general strategy for computing the vibrational frequencies of adsorbates on surfaces is presented. Rather than use numerical fits to the surface energy, we advocate diagonalizing a mass weighted energy second-derivative matrix. The computation of energy derivatives has several advantages: It facil

Electronic and vibrational emission spectra have been produced by the reaction of H atoms with NO, nnd studied under moderate resolving power. Preliminary rotational analyses of some of the bands give Y',' = 2684.7 cm-', u;' = 1565.3 cm-' and LJ;' = 1500.4 cm-'. The values for v',' and v'; are consi

It is demonstrated that direct and substrate-mediated excitation mechanisms in surface photochemical reactions can be discriminated based on the pronounced angular dependence of the electric fields at the vacuum interface of a transparent substrate covered with a thin metal film. We can unambiguousl