Cerium(III) catalysts can replace manganese(II) in the classic Briggs-Rauscher oscillator also containing acid, iodate, hydrogen peroxide, and malonic acid. H2SO4 was used as an acid; if HClO4 is used, cerium iodate precipitates. Cerium(III) oxalate typically precipitates by thetime oscillations end. Ce(III) at low concentrations is roughly three times as effective as Mn(II). At higher catalyst concentrations, there is a leveling effect for both. Oscillatory behavior with different concentrations is explored. Response to concentration change and inhibitors is similar with both catalysts. The mechanistic steps involving the catalysts must be similar. Ce(IV) is also an effective catalyst, although some cerium(IV) iodate may precipitate immediately.
S.D. Furrow, R. Cervellati, E. Greco (2012). A Study of the Cerium-catalized Briggs-Rauscher Oscillating Reaction. ZEITSCHRIFT FÜR NATURFORSCHUNG. B, A JOURNAL OF CHEMICAL SCIENCES, 67b, 89-97.
A Study of the Cerium-catalized Briggs-Rauscher Oscillating Reaction
CERVELLATI, RINALDO;GRECO, EMANUELA
2012
Abstract
Cerium(III) catalysts can replace manganese(II) in the classic Briggs-Rauscher oscillator also containing acid, iodate, hydrogen peroxide, and malonic acid. H2SO4 was used as an acid; if HClO4 is used, cerium iodate precipitates. Cerium(III) oxalate typically precipitates by thetime oscillations end. Ce(III) at low concentrations is roughly three times as effective as Mn(II). At higher catalyst concentrations, there is a leveling effect for both. Oscillatory behavior with different concentrations is explored. Response to concentration change and inhibitors is similar with both catalysts. The mechanistic steps involving the catalysts must be similar. Ce(IV) is also an effective catalyst, although some cerium(IV) iodate may precipitate immediately.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.