Investigation of annealing effects on the adsorption of Ni on 4H–SiC (0001) surfaces using scanning tunneling microscopy and spectroscopy

Abstract: The adsorption of Ni on 4H-SiC surfaces as a function of temperature has been investigated using scanning tunneling microscopy (STM) and variable tip-sample separation scanning tunneling spectroscopy (VTSS-STS). A submonolayer of Ni was deposited on an atomically clean (√3×√3) 4H-SiC sample, which was then annealed sequentially from 400to1000°C. VTSS-STS showed a reduction in the apparent surface band gap after Ni deposition, attributed to metal induced gap states. The size of the Ni clusters changed after ann… Show more

“…The newly formed 2D islands may arise from the interfacial reaction between Ni clusters and carbon nanomesh. It is reported that metal atoms could intercalate through the carbon rich surface and exist as silicides below the surface of the SiC [37,47,48]. Therefore we postulate that the interfacial reaction in the present study may also proceed via an intercalation mechanism, in which Ni atoms intercalate underneath the topmost carbon layer and form silicides at the interface.…”

Growth and characterization of Au, Ni and Au–Ni nanoclusters on 6H-SiC(0001) carbon nanomesh

“…The newly formed 2D islands may arise from the interfacial reaction between Ni clusters and carbon nanomesh. It is reported that metal atoms could intercalate through the carbon rich surface and exist as silicides below the surface of the SiC [37,47,48]. Therefore we postulate that the interfacial reaction in the present study may also proceed via an intercalation mechanism, in which Ni atoms intercalate underneath the topmost carbon layer and form silicides at the interface.…”

Growth and characterization of Au, Ni and Au–Ni nanoclusters on 6H-SiC(0001) carbon nanomesh

Atomic Structures and Electronic Properties of Carbide Surfaces Unraveled by Scanning Tunneling Microscopy

Graphene Functionalization for Biosensor Applications