Scanning tunnelling microscopy has been used to study the interaction of di
methyl disulphide and methanethiol with Cu(1 0 0) and Cu(4 1 0) surfaces at
room temperature, conditions believed to lead to the formation of adsorbed
methanethiolate CH3S-. On Cu(1 1 1) these interactions are known to produc
e a pseudo-(1 0 0) reconstruction of the surface, but with a periodicity so
me 14% larger than on the ideal Cu(1 0 0) surface. On Cu(1 0 0) there is no
evidence of adsorbate-induced substrate reconstruction, with commensurate
(2 x 2) and (defected) c(2 x 2) overlayers being formed, although at the hi
ghest coverages the surface appears to be characterised by a c(2 x 6) phase
which is sometimes poorly ordered. On Cu(4 1 0) the structure formed on th
e (1 0 0) terraces appears to be c(2 x 2). although characteristic patterns
of kink formation on the steps may be explained in terms of relief of adso
rbate-induced compressive surface stress as may be expected if a larger lat
tice parameter is preferred. The c(2 x 6) phase on the extended (1 0 0) sur
face is explained in terms of a buckled c(2 x 2) structure, also a conseque
nce of compressive surface stress relief. (C) 2001 Elsevier Science B.V. Al
l rights reserved.