Sb adsorption on TiO2(1 0 0): Growth, morphology, work function and thermal dependence

[Display omitted] •Antimony grows on TiO2(1 0 0) forming 3D islands without reduction of Ti.•Flat Sb islands of 80–150 nm at the base and 15–35 nm height form on TiO2(1 0 0).•With Sb adsorption the work function decreases 0.5 eV from the clean TiO2 value.•Sb thermal desorption from TiO2(1 0 0) occur...

Full description

Saved in:
Bibliographic Details
Published in:Applied surface science 2022-11, Vol.602, p.154326, Article 154326
Main Authors: Lucero Manzano, Andrea M., Cantero, Esteban D., Sánchez, Esteban A., Grizzi, Oscar
Format: Article
Language:English
Subjects:
Antimony adsorption
Antimony nano-structures
Sb/TiO2(1 0 0)
Titanium dioxide
Citations: Items that this one cites
Items that cite this one
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:[Display omitted] •Antimony grows on TiO2(1 0 0) forming 3D islands without reduction of Ti.•Flat Sb islands of 80–150 nm at the base and 15–35 nm height form on TiO2(1 0 0).•With Sb adsorption the work function decreases 0.5 eV from the clean TiO2 value.•Sb thermal desorption from TiO2(1 0 0) occurs between 660 and 700 K. We report a study of the deposition of antimony on TiO2(1 0 0) from sub-monolayer (ML) to more than 20 equivalent ML. The growth kinetics, the possible reaction path and the temperature dependence are characterized by ion scattering, X-ray and UV photoelectron spectroscopy and electron energy loss spectroscopy. The surface morphology at specific coverages is studied by atomic force microscopy. The results are compatible with 3D island growth since the early stages of the deposition and the absence of reduction/oxidation processes. Sb remains at the surface top without appreciable incorporation into the bulk. The islands observed for 4 and 25 equivalent ML are relatively flat attaining typical dimensions in the range of 80 to 150 nm in the base and 15 to 35 nm in height. These structures are disperse at low coverages, and closer to each other and of similar sizes at higher coverages. The thermal desorption takes place between 650 and 700 K. Exposure of the Sb/TiO2(1 0 0) surface to ambient conditions results in Sb oxidation which is removed (reduced) by annealing in the range of 500–600 K. These results could be useful in Sb ambient remediation, Sb doping of TiO2, and in the formation of Sb nanostructures on insulators.
ISSN:0169-4332
1873-5584
DOI:10.1016/j.apsusc.2022.154326