Add to ORKGMultireference CCI calculations have been performed for the diatomic molecules NiC, NiN, and NiO, and for the cluster systems NiSC, NiSN, and Ni50. Of the diatomic molecules, NiN has by far the smallest dissociation energy, which we argue is primarily due to the small electron affinity of nitrogen. The bonding to nickel 3d, which is pronounced for the diatomic molecules, disappears almost entirely for the cluster systems. In the full geometry optimization of the NiSX systems, includingcluster relaxation, the final geometries are rather similar for the three adsorbates, all being adsorbed below the surface. The energy gain in penetrating the surface is much larger for carbon and nitrogen than it is for oxygen, however. This is in line with t...
The temperature dependence of the N(1s) spectrum of N2 adsorbed on a polycrystalline Ni surface sugg...
New chemical-state-specific scanned-energy mode photoelectron diffraction experiments and density fu...
New experimental structure determinations for molecular adsorbates on NiO(100) reveal much shorter N...
Multireference CCI calculations have been performed for the diatomic molecules NiC, NiN, and NiO, an...
Atomic chemisorption of hydrogen and oxygen on the Ni(100) surface has been studied using an Effecti...
The present article is the first in a series describing investigations of the chemisorption and diss...
The structures and energetic effects of molecular nitrogen adsorbates on nickel clusters are investi...
$N_2$ chemisorbs on (100), (110) and (111) single-crystal faces at 80 K without any dissociation. A ...
The local adsorption structures of CO and NH3 on NiO(1 0 0) have been determined by C 1s and N 1s sc...
New chemical-state-specific scanned-energy mode photoelectron diffraction experiments and density fu...
The local adsorption structures of CO and NH3 on NiO(I 0 D) have,been determined by C Is and N 1s sc...
New chemical-state-specific scanned-energy mode photoelectron diffraction experiments and density fu...
The interaction of oxygen with Ni(100), (110) and (111) surfaces as well as with Ni clusters of vary...
Model calculations lor the chemisorption o f hydrogen atoms on nickel (111), (100) and (110) surface...
New chemical-state-specific scanned-energy mode photoelectron diffraction experiments and density fu...
The temperature dependence of the N(1s) spectrum of N2 adsorbed on a polycrystalline Ni surface sugg...
New chemical-state-specific scanned-energy mode photoelectron diffraction experiments and density fu...
New experimental structure determinations for molecular adsorbates on NiO(100) reveal much shorter N...
Multireference CCI calculations have been performed for the diatomic molecules NiC, NiN, and NiO, an...
Atomic chemisorption of hydrogen and oxygen on the Ni(100) surface has been studied using an Effecti...
The present article is the first in a series describing investigations of the chemisorption and diss...
The structures and energetic effects of molecular nitrogen adsorbates on nickel clusters are investi...
$N_2$ chemisorbs on (100), (110) and (111) single-crystal faces at 80 K without any dissociation. A ...
The local adsorption structures of CO and NH3 on NiO(1 0 0) have been determined by C 1s and N 1s sc...
New chemical-state-specific scanned-energy mode photoelectron diffraction experiments and density fu...
The local adsorption structures of CO and NH3 on NiO(I 0 D) have,been determined by C Is and N 1s sc...
New chemical-state-specific scanned-energy mode photoelectron diffraction experiments and density fu...
The interaction of oxygen with Ni(100), (110) and (111) surfaces as well as with Ni clusters of vary...
Model calculations lor the chemisorption o f hydrogen atoms on nickel (111), (100) and (110) surface...
New chemical-state-specific scanned-energy mode photoelectron diffraction experiments and density fu...
The temperature dependence of the N(1s) spectrum of N2 adsorbed on a polycrystalline Ni surface sugg...
New chemical-state-specific scanned-energy mode photoelectron diffraction experiments and density fu...
New experimental structure determinations for molecular adsorbates on NiO(100) reveal much shorter N...