The fluorescence and resonance Rayleigh scattering spectral study and analytical application of cerium (IV) and cefoperazone system

• A simple, fast method for the determination of cefoperazone is performed.
• The mechanism aspect concerning the remarkable fluorescence response was discussed.
• The validity was verified by comparing the results with other methods.

In weak acidic medium of pH 3.5–5.6, Ce(IV) can be reduced by cefoperazone (CPZ) to be Ce(III), which further combined with CPZ to form complex Ce(OH)3CPZ. This complex not only has higher fluorescence than Ce(III), but also results in significant increase of resonance Rayleigh scattering (RRS), second order scattering (SOS) and frequency doubling scattering (FDS). The wavelengths of maximum fluorescence exciting and emission are located at 356 nm/349 nm, while the maximum wavelengths of RRS, SOS and FDS are at 312 nm, 550 nm and 390 nm, respectively. The intensity of fluorescence and scattering are all linear with the concentration of CPZ in certain conditions. The detection limit of most sensitive RRS method for CPZ is 2.1 ng mL− 1. The optimum conditions for detecting CPZ using RRS method are investigated. The effect of co-existing substances shows that the method has excellent selectivity, especially since other cephalosporins don't have similar reactions. Therefore, it can be achieved to determine CPZ in cephalosporins selectively. The paper also focuses on the reaction mechanism, the consistent and contracture of the resultant. The reasons for enhanced intensity are presumed in the meantime.

Florescence spectra. 1: Ce(IV); 2: Ce(IV)–CPZ; cCe(IV) = 3.0 × 10− 5 mol L− 1; c(CPZ) = 2.0 μg mL− 1.Figure optionsDownload as PowerPoint slide