Abstract
Scanning tunneling microscopy and scanning tunneling spectroscopy combined with first-principles calculations have been applied to investigate the (111) surface of a naturally grown ${\text{Fe}}_{3}{\text{O}}_{4}$ single crystal. The commonly observed surface is determined as a layer of Fe cations at tetrahedral sites, known as the ${\text{Fe}}_{\text{tet}1}$ termination. A surface terminated with Fe cations at octahedral sites, another proposed termination in previous studies, is found only when the surface was prepared under oxygen-poor conditions. Scanning tunneling spectra at room temperature and at 77 K indicate that the (111) surface undergoes a metal-insulator transition.
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