Studies on the mechanism of the peroxyoxalate chemiluminescence in aqueous phosphate buffer and in ionic liquids

The peroxyoxalate system consists in the reaction of oxalic esters with hydrogen peroxide in the presence of basic and/or nucleofilic catalysts and a fluorescent compound with low oxidation potential (ACT), resulting in efficient chemiluminescence emission. This system is widely utilized in various analytical applications; however, its use is limited due to the difficulties to adapt it to aqueous media. In this work, kinetic studies of the peroxyoxalate reaction were performed in phosphate buffered (pH 6, 7 and 8) binary 1,2-dimethoxyethane/water mixtures (1/1), using the oxalate esters bis(2,4,6-trichlorophenyl) oxalate (TCPO), bis(4- methylphenyl) oxalate (BMePO) and bis(4-nitrophenyl) oxalate (BNPO). Evidence for the action of the phosphate as a specific base catalyst in the reaction of TCPO was obtained from the dependence of the emission decay rate constant (kobs) on the hydrogen peroxide and phosphate buffer concentration. However, the results also indicate that phosphate acts mainly as an acid catalyst in the reaction of BMePO. The peroxyoxalate reaction (TCPO, H2O2, ACT and imidazole) was also performed in 80 % of ionic liquids. Three ionic liquids containing the cation 1-butyl- 3-methylimidazolium (bmim) with contra-ions tetrafluoroborate, hexafluorophosphate and hexafluoroantimonate were used obtaining higher rate constant values for bmimPF6, followed by bmimBF4 media and finally bmimSbF6. The quantum yields determined reached almost 20% in the medium bmimSbF6, additionally, experimental evidence was obtained for the occurrence of the CIEEL mechanism in the chemiexcitation step of the peroxyoxalate reaction in these media (AU)