The fluorescence lifetime and quantum yield of chlorophyll a in Triton X-100 solutions

The fluorescence of chlorophyll (Chl) a in 0.007–0.1% Triton X-100 was investigated by a phase-shift technique. The Chl a concentrations varied from 0.7 to 25 μM. Parallel measurements of fluorescence lifetime (τ) and quantum yield (ψ) were made. It was concluded that homogeneous energy transfer takes place at detergent concentrations above 0.025%: (i) the transfer between uniform molecules of the pigment solubilized in Triton X-100 micelles, when τ and ψ are constant; (ii) the transfer towards the quenching centers, resulting in a proportional decrease in τ and ψ. At a Triton X-100 concentration of about 0.025% the Chl a emission becomes heterogeneous. It is evident from the disproportional decrease in τ and ψ (greater in ψ than in τ) and also from the rise of the fluorescence at 730–750 nm. As the Triton X-100 concentration becomes lower than the critical one (0.021%), the number of micelles drops abruptly and Chl a forms colloid particles in the aqueous medium. This manifests itself as a decrease in τ and as a certain stabilization of ψ. Having analyzed the complex pattern of the τ/ψ ratio, we concluded that under these conditions more than 90% of Chl a is in a weakly fluorescent form (τ < 30 ps) and about 1% is in an aggregated state fluorescing at 732 nm with τ about 0.7 ns.