Quantum chemical analysis on hydrogenated Zn12O12 nanoclusters

We have performed a density functional theory study about adsorption of one or two hydrogen atoms on zinc oxide nanoclusters (Zn12O12) in terms of energetic, geometric, and electronic properties. The results showed that the first H atom strongly prefers to be adsorbed on O atoms of the cluster while preferable site for the second one is atop the Zn atoms. This finding has been rationalized using frontier molecular orbitals. The HOMO/LUMO energy gap of the cluster is dramatically reduced from 4.04 to 0.81 eV upon the adsorption of one hydrogen atom, suggesting that it is transformed to n-type semiconductor ascribed to the large charge transfer from the hydrogen to the cluster. It was found that the H adsorptions in all cases would facilitate the field electron emission from the cluster surface by shifting the Fermi level to higher energies and decreasing the work function.