Eld. Hebenstreit et al., Adsorption of sulfur on TiO2(110) studied with STM, LEED and XPS: temperature-dependent change of adsorption site combined with O-S exchange, SURF SCI, 461(1-3), 2000, pp. 87-97
We have studied the adsorption of elemental sulfur on TiO2(110) for exposur
e at room temperature and at 300 degrees C. Depending on the substrate temp
erature we found different adsorption sites with scanning tunneling microsc
opy (STM). At room temperature sulfur adsorbs on the titanium rows with a h
igh mobility along the [001] direction. At 300 degrees C sulfur adsorbs at
the position of the bridging oxygen rows and forms short chains along the [
1 (1) over bar 0] direction at low coverages. High coverages result in the
formation of a (3 x 1) superstructure. X-ray photoelectron spectroscopy (XP
S) shows a 2 eV shift of the sulfur 2p peak to lower binding energy concurr
ently with the change of adsorption site from the titanium to the oxygen ro
ws. For the (3 x 1) structure a distinct Ti3+ shoulder appears at the Ti 2p
(3/2) peak. Based on these measurements we present a model where sulfur rep
laces every third bridging oxygen atom of the substrate and the other bridg
ing oxygens are completely removed. (C) 2000 Elsevier Science B.V. All righ
ts reserved.