The adsorption of ammonia (NH3) on four X12Y12 (X = B, Al and Y = N, P) nano-cages was investigated using density functional theory calculations. Changes in Gibbs free energy, adsorption energy, frequency modes, natural bond orbitals, molecular electrostatic potential surfaces and density of states were explored. It was found that the relative order of the acidity for the surfaces is: Al12N12 > Al12P12 > B12N12 > B12P12. In the case of Al12N12, hybridization and lower electron density of the adsorbing atom overcome the disadvantage of high HOMO-LUMO (highest occupied molecular orbital-lowest unoccupied molecular orbital) energy gap (Eg); therefore, this cage becomes the most favourable for the adsorption of NH3. We found that changes in the electronic properties of the clusters are negligible after the adsorption process. Also, the value of Eg increases with the increase in the Hartree-Fock exchange per cent of the density functional.
Keywords
Acidity of Surfaces, Ammonia Adsorption, Density Functional Theory, Nano-Clusters.
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