Eh. Teunissen et al., PROTON-TRANSFER IN ZEOLITES - A COMPARISON BETWEEN CLUSTER AND CRYSTAL CALCULATIONS, Modelling and simulation in materials science and engineering, 2(4), 1994, pp. 921-932
We have calculated the adsorption energy of NH3 and NH4+ in a zeolite
crystal and on four different clusters cut out from the crystal. The a
dsorption energies were calculated for two different geometries of the
chabazite: a geometry determined with x-ray diffraction and a shell m
odel optimized geometry. The effect of the geometry optimization of th
e crystal is large. In the crystal for which the geometry has been opt
imized the adsorbates are less stable. For NH3 the difference between
the two geometries is 29 kJ mol-1 (adsorption energies -101 and -72 kJ
mol-1), and for NH4+ the difference between the two geometries is 137
kJ mol-1 (-15 and 122 kJ mol-1). The adsorption energy of NH3 is a lo
cal process. The effect of the Madelung potential is relatively small:
for the two geometries we found -6 and +5 kJ mol-1. The adsorption of
NH4+ is more affected by the Madelung potential: -53 and +23 kJ mol-1
for the two geometries. Clusters that have bonds saturated with hydro
gen atoms close to the adsorbate do not give a proper description of t
he adsorption process: this type of boundary error can be as large as
60 kJ mol-1.