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Surface and interstitial transition barriers in rutile (110) surface growth

2009; American Physical Society; Volume: 80; Issue: 23 Linguagem: Inglês

10.1103/physrevb.80.235308

1550-235X

Edward Sanville, Louis James Vernon, S.D. Kenny, Roger Smith, Y. Moghaddam, C. S. Browne, Paul A. Mulheran,

Advanced Photocatalysis Techniques

We present calculated surface and interstitial transition barriers for Ti, O, ${\text{O}}_{2}$, TiO, and ${\text{TiO}}_{2}$ atoms and clusters at the rutile (110) surface. Defect structures involving these small clusters, including adcluster and interstitial binding sites, were calculated by energy minimization using density-functional theory (DFT). Transition energies between these defect sites were calculated using the NEB method. Additionally, a modified SMB-Q charge equilibration empirical potential and a fixed-charge empirical potential were used for a comparison of the transition energy barriers. Barriers of 1.2--3.5 eV were found for all studied small cluster transitions upon the surface except for transitions involving ${\text{O}}_{2}$. By contrast, the ${\text{O}}_{2}$ diffusion barriers along the [001] direction upon the surface are only 0.13 eV. The QEq charge equilibration model gave mixed agreement with the DFT calculations, with the barriers ranging between 0.8 and 5.8 eV.