SPIN-TRAPPING OF FREE-RADICALS BY PBN-TYPE BETA-PHOSPHORYLATED NITRONES IN THE PRESENCE OF SDS MICELLES

Three PBN-type beta-phosphorylated nitrones, PPN 1, 4-PyOPN 2, and 4-C IPPN 3, have been used to trap two carbon centred free radicals, CH3. and CO2.-, in a water-SDS biphasic system. The location of the traps a nd their adducts has been found by EPR spectroscopy. 4-PyOPN is found to remain in water, while 4-CIPPN is preferentially sequestered into t he micellar structure, and PPN partitioned between the two phases. Wit h the three nitrones, the CO2.- spin adduct always remains in the bulk aqueous phase. In contrast, the three CH3. spin adducts seem to be pr esent in both phases. However, 4-PyOPN-CH3 is essentially located in w ater, and 4-CIPPN-CH3 in the micelles, while PPN-CH3 is clearly shown to partition between the aqueous environment and the micellar interior . For all these spin adducts, the phosporus hyperfine splitting consta nt, a(p), is found to be a good indicator of aminoxyl behaviour in the presence of micelles. For the various sodium dodecyl sulfate concentr ations, the PPN-CH3 affinity for the micellar phase was evaluated from the average a(p) value.