Raman spectra of pyridine adsorbed on silver (100) and (111) electrode surfaces

Raman spectroscopy has been employed for the first time to study the role of adsorption at electrodes. It has been possible to distinguish two types of pyridine adsorption at a silver electrode. The variation in intensity and frequency of some of the bands with potential in the region of the point o

We report the Raman spectra of pyridine chemisorbed on Ni( 111) and Ni( 100) surfaces under ultrahigh vacuum. At coverages of 0.5 monolayer, the Raman spectrum is fully developed on the Ni( 100) surface while there is no observable spectrum on Ni( 111). The spectra at saturation coverages are nearly

The surface enhanced Raman scattering (SERS) of pyndtne adsorbed on a copper electrode was observed with 647 1 nm ercztatlon and the dependence of the Raman tntenslty as a fun~on of electrode potential was obtarned for the most mtense bands The results are compared with reported mtenslty and frequen

Surixc enh.mcrd R~mnn tpccrra of pkrldme Jdsorbcd on 4% Au, N; and PI mat& were observed The mtensttxes of the spt'ctrJ depended stronglt on III I' cxltdtlon \~avclrnyth Tl~e observed peaks .ue asslped to the bands of chemlsorbed pvrtdrnes

Ramvl scartuing from quinoxaline adsorbed a1 P Ag olcctrodc WJS obsrvcd. Ihc SER spcclrum CXhibitcd remarlrnblc a concentration and potential dependence. and indicated the existence of two types of adsorbed species. They were assigned as flar and end-on specks on the electrode.