Further observations of the surface enhanced Raman spectrum of water on silver and copper electrodes

The SER spccrrum 1s reported ior N-msthylpyrrdimum iodldc. an orgamc capon with no unshared electron p311 avalbblc ior lntrractlon with the clcctrode. Both Raman-and mirarcd-acrire bands arc obscrvcd wrh small frequency shlits No SERS IS objcrvcd ior N-mcthylp} ridimum chloride unril tmcc amounts of

The anion effect on the surface-enhanced Raman scattering (SERS) of interfacial water molecules on Ag electrodes has been studied by adding concentrated KCI, KRr, KI or KF solution to dilute solutions. SERS of the interfacial water was detected after adding concentrated KCI, KRr or KI solution, but

Surface-enhanced Raman scattering (SERS) of Ct.05 M pyridine/lO-s M CuCl,/O.l M KCl/water/Ag electrode and 0.05 M pyridine/O. I M KCl/water/Cu electrode systems was studied at T=24 and 45 "C. At T= 24°C a very small amount of IO-' M Cu ions could stabilize the large amount of surface Ag adatoms and

Surface-enhanced Raman spectroscopy has been used to study the surface chemistry of thiocarbohydrazide (TCH) on Ag and Cu electrodes. The TCH molecule is adsorbed on Ag and Cu surfaces through its S atom. The electrochemistry of TCH in acidic solutions is also investigated. In contrast to thiosemica