Non-Aqueous surface-enhanced raman scattering spectra of benzene

We have studled surface-enhanced Raman scattering from the rollowing non-aqueous elecwxhemxal systems: 0.05 M pyridme/O.l M LiCl/mclhanol/Ag ekrrode. 0.05 M pyridmc/O.l M LiCl/ethanol/Ag elecuode. and 0.05 M benzene/O.1 M LCl/edunol/Ag elects&. Each SERS band of pyri&ne is found to show ?wo &slincti

The surface enhanced Raman scattenng (SERS) of interfaclal pyndme and Sr-specws at Ag eiectrodes from neat pyndlne solutions contammg tetra-n-butylammomum brormde IS presented The potential dependence of the SERS peak frequencies, bandwdths. and relattve tntenslles IS reported and Interpreted III te

The analysis of the Raman and FTIR spectra of sulfamic acid suggest a structure between that of zwitterion and molecular form. SERS spectra have been analyzed in two types of silver colloids. As \(\mathrm{S} \cdots \mathbf{O} \cdots \cdots\) Ag linkages are formed in one colloid, \(S=0\) fundamental

The surface-enhanced Raman scattering (SERS) spectra of a group of flavonoids with related structures (quercetin, kaempferol, luteolin and apigenin) are reported here for the first time. It is demonstrated that the studied flavonoids undergo a chemical change on the Ag nanoparticles prepared by redu