A SPIN TRAPPING STUDY OF THE PHOTOCHEMISTRY OF 5,5‐DIMETHYL‐1‐PYRROLINE N‐OXIDE (DMPO)

Abstract

The photochemistry of 5,5‐dimethyl‐l‐pyrroline N‐oxide (DMPO) has been studied in benzene, cyclohexane and aqueous buffer solutions (pH 7.4) by means of electron paramagnetic resonance (EPR) and the spin trapping technique. Ultraviolet irradiation of DMPO in aqueous buffer with unfiltered UV radiation from a Xe arc lamp results in photoionization of the spin trap and the generation of the DMPO cation radical, DMPO⁺. The aqueous electron, e_aq⁻, was trapped by DMPO and detected as the DMPO/H adduct. The DMPO⁺‐ reacted with the water to yield the DMPO/OH adduct. Ultraviolet irradiation of DMPO in nitrogen‐saturated benzene gave an unidentified carbon‐centered DMPO adduct that was replaced by hydroperoxyl and alkoxyl adducts of DMPO when oxygen was present. Experiments employing ¹⁷O₂ gas indicated that the oxygen in the DMPO alkoxyl adduct was derived from molecular oxygen. However, UV irradiation of DMPO in cyclohexane yielded the cyclohexyl and cyclohexyloxyl adducts of DMPO in nitrogen‐saturated and air‐saturated solutions, respectively. These observations suggest that in aprotic solvents UV irradiation of DMPO generates a carbon‐centered radical (R⁻), derived from the trap itself, which in benzene reacts with oxygen to yield an alkoxyl radical (RO⁻), possibly via a peroxyl radical (ROO⁻) intermediate. In cyclohexane R⁻ abstracts a hydrogen atom from the solvent to yield the cyclohexyl radical in the absence of oxygen and the cyclohexyloxyl radical in the presence of oxygen. These findings indicate that when DMPO is used as a spin trap in studies employing short‐wavelength UV radiation (λ < 300 nm) the photochemistry of DMPO cannot be ignored.