Reconcile the Bulk Metallic and Surface Insulating state in 1T-TaSe2

Abstract

The transition metal dichalcogenides 1T-TaS2 and 1T-TaSe2 have been extensively studied for the complicated correlated electronic properties. The origin of different surface electronic states remains controversial. We apply scanning tunneling microscopy and spectroscopy to restudy the surface electronic state of bulk 1T-TaSe2. Both insulating and metallic states are identified in different areas of the same sample. The insulating state is similar to that in 1T-TaS2, concerning both the dI/dV spectrum and the orbital texture. With further investigations in single-step areas, the discrepancy of electronic states is found to be associated with different stacking orders. The insulating state is most possibly a single-layer property, modulated to a metallic state in some particular stacking orders. Both the metallic and large-gap insulating spectra, together with their corresponding stacking orders, are dominant in 1T-TaSe2. The connected metallic areas lead to the metallic transport behavior. We then reconcile the bulk metallic and surface insulating state in 1T-TaSe2. The rich phenomena in 1T-TaSe2 deepen our understanding of the correlated electronic state in bulk 1T-TaSe2 and 1T-TaS2.