Magic behavior and bonding nature in hydrogenated aluminum nitride clusters

Interaction of hydrogen with aluminum nitride clusters have been investigated using the density functional method of Becke's three-parameter hybrid functional with the nonlocal correlation of Lee, Yang, and Parr. Berny structural optimization and frequency analyses are performed with the basis of 6-311 + G (d). Our results show large binding energies of a single hydrogen atom on small AIN clusters and large highest occupied and lowest unoccupied molecular-orbital gaps for (AIN)H, (AIN)(4)H, (AIN)(6)H, (AIN)(7)H, and (AIN)(8)H making these species behave like magic clusters. In general the binding energy of H is found to decrease with an increase in the cluster size. Calculations on two hydrogen atoms on AIN clusters show large binding energies for (AIN),,H, with n = 1, 3, 5, and 7, but significant decrease for (AIN)7H, as compared to (AIN)7H. The results confirm the magic behavior of (AIN)7H. And the calculations also suggest that hydrogen should be dissociated on (AIN)3, (AIN)5 and (AIN)(6). (C) 2004 Elsevier B.V. All rights reserved.