Tuning surface metallicity and ferromagnetism by hydrogen adsorption at the polar ZnO(0001) surface
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Total energy calculations for the adsorption of hydrogen on the polar Zn-ended ZnO(0001) surface predict that a metal-insulator transition and the reversible switch of surface magnetism can be achieved by varying the hydrogen density on the surface. An on top $\text{H}(1\ifmmode\times\else\texttimes\fi{}1)$ ordered overlayer with genuine H-Zn chemical bonds is shown to be energetically favorable. The $\text{H}(1\ifmmode\times\else\texttimes\fi{}1)$ covered surface is metallic and spin polarized. Lower hydrogen coverages lead to a nonmagnetic insulating surface, with strengthened H-Zn bonds and corrugation of the topmost layers. Our results explain the experimental observation of formation of an ordered $\text{H}(1\ifmmode\times\else\texttimes\fi{}1)$ overlayer on the ZnO(0001) surface and its unexpected evolution toward a disordered layer. Furthermore, we identify a mechanism which can contribute to the room-temperature ferromagnetism measured in ZnO thin films and nanoparticles.