Abstract
The stoichiometry of complexes formed between Rhodamine 3B and Hexyl-Rhodamine B with β-cyclodextrin was investigated by electronic absorption, fluorescence spectroscopy and photokinetics and well supported by thermochromic studies. Complex 1:1 is formed at low β-cyclodextrin concentrations with Rhodamine 3B and Hexyl-Rhodamine B with estimated equilibrium constants K 1 = 8.4 × 10 3 M −1 and K ′ 1 = 2.1 × 10 3 M − 1 , fluorescence quantum yields Φ f = 0.12 and Φ ′ f = 0.15 and lifetimes τ f = 610 and τ ′ f = 750 ps , respectively. At higher β-cyclodextrin concentrations 1:2 (cyclodextrin) complexes are formed with estimated equilibria constants of K 2 = 2.8 M −1 and K ′ 2 = 7.5 M − 1 , fluorescence quantum yields Φ f = 0.67 and Φ ′ f = 0.68 and lifetimes τ f = 3360 and τ ′ f = 3390 ps , respectively for Rhodamine 3B and Hexyl-Rhodamine B. The radiationless rate constants in both 1:1 complexes with either rhodamine reflect essentially the activated charge transfers which are enhanced to k A = (1.1–1.4) × 10 9 s −1 as compared to 1:2 complexes of k A = (7.5–7.8) × 10 7 s −1. The difference in one order of magnitude is assigned to the specificity of the binding sites and geometry constraints in each case.
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