Abstract
The 95−670 GHz EPR measurements at 5 K were performed on canthaxanthin radical cation chemically generated on silica−alumina. The 327 GHz and higher frequency EPR spectra were resolved into two principal components of the g tensor. Spectral simulation indicated this to be the result of g anisotropy where g∥ = 2.0032 and g⊥ = 2.0023. This type of g tensor is consistent with the theory for polyacene π-radical cations, which states that the g tensor becomes cylindrically symmetric with increasing chain length. This also demonstrates that the symmetrical unresolved EPR line at 9 GHz is due to a carotenoid π-radical cation with electron density distributed throughout the whole chain as predicted by RHF−INDO/SP molecular orbital calculations. The lack of temperature dependence of the EPR line widths over the range of 5−80 K at 327 GHz suggests rapid rotation of methyl groups even at 5 K that averages out the proton couplings from three oriented β-protons. In fact, similar line widths at 5 K were observed at 670...
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