Direct Kinetic Observation of the Chemiexcitation Step in Peroxyoxalate Chemiluminescence

摘要

A high-energy intermediate in the peroxyoxalate reaction can be accumulated at room temperature under specific reaction conditions and in the absence of any reducing agent in up to micromolar concentrations. Bimolecular interaction of this intermediate, accumulated in the reaction of oxalyl chloride with hydrogen peroxide, with an activator (highly fluorescent aromatic hydrocarbons with low oxidation potential) added in delay shows unequivocally that this intermediate is responsible for chemiexcitation of the activator. Activation parameters for the unimolecular decomposition of this intermediate (Hq=11.2 kcal mol-1; Sq=-23.2 cal mol-1 K-1) and for its bimolecular reaction with 9,10-diphenylanthracene (Hq=4.2 kcal mol-1; Sq=-26.9 cal mol-1 K-1) show that this intermediate is much less stable than typical 1,2-dioxetanes and 1,2-dioxetanones and demonstrate its highly favored interaction with the activator. Therefore, it can be inferred that structural characterization of the high-energy intermediate in the presence of an activator must be highly improbable. The observed linear free-energy correlation between the catalytic rate constants and the oxidation potentials of several activators definitely confirms the occurrence of the chemically initiated electronexchange luminescence (CIEEL) mechanism in the chemiexcitation step of the peroxyoxalate system.