Abstract

We have carried out first-principles spin-polarized calculations in order to study the energetics and electronic structure of vanadium adsorption and incorporation on $\text{GaN}(0001)\text{\ensuremath{-}}2\ifmmode\times\else\texttimes\fi{}2$ surface using density-functional theory within a plane-wave ultrasoft pseudopotential scheme. It was found that V atoms preferentially adsorb at the T4 sites at low and high coverages (from 1/4 up to 1 monolayer). In addition, calculating the relative surface energy of several configurations and various V concentrations, we constructed a phase diagram showing the energetically most stable surfaces as a function of the Ga chemical potential. Based on these results, we found that incorporation of V adatoms in the Ga-substitutional site is energetically more favorable compared with the adsorption on the top layers. Our calculations show that the vanadium incorporation is most favorable under a nitrogen environment, in agreement with recent experimental results.

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