Xy. Tang et al., A VIBRATIONAL SPECTROSCOPIC STUDY OF THE STRUCTURE OF ELECTROACTIVE SELF-ASSEMBLED MONOLAYERS OF VIOLOGEN DERIVATIVES, Langmuir, 10(7), 1994, pp. 2235-2240
Surface-enhanced Raman spectroscopy (SERS) and infrared reflection abs
orption spectroscopy (IRRAS) are used to determine the orientation of
the viologen redox group and the relative degree of ordering of the al
kyl chain segments in self-assembled monolayers of various alkylviolog
en derivatives. The monolayers were assembled and examined on rough Ag
electrodes (SERS) and smooth, vapor-deposited Au electrodes (IRRAS).
Attachment to the Ag or Au surfaces which were studied occurs by virtu
e of strong interaction of a disulfide group on the molecule with the
surface. In the present case, analysis of the relative intensities of
the viologen A(g) N-R stretching mode at 1169 cm-1 and two of the A(g)
ring modes at 1298 and 1637 cm-1 reveals that the net orientation of
the long axis of the viologen moiety is roughly perpendicular to the p
lane of the electrode surface, in accordance with the surface coverage
s at saturation as determined from previous electrochemical data. The
relative intensities of the methylene asymmetric (2890 cm-1) and symme
tric (2850 cm-1) stretches in the SERS spectra on rough Ag and the pea
k positions of the asymmetric and symmetric methylene C-H stretching m
odes in the IRRAS on smooth Au (at 2929 and 2857 cm-1, respectively) r
eveal a liquid-like environment for the alkyl chains. These results ar
e consistent with the relative sizes of the viologen and alkyl groups
and the expected packing arrangement based on these, as well as with p
revious electrochemically derived surface coverages for saturated self
-assembled monolayers of these compounds.