D. Toptygin et al., RESOLUTION OF ABSORPTION-SPECTRA OF RHODAMINE 6G AGGREGATES IN AQUEOUS-SOLUTION USING THE LAW OF MASS-ACTION, Chemical physics letters, 277(5-6), 1997, pp. 430-435
There is striking dissimilarity among the absorption spectra of rhodam
ine dimers reported by different authors. To address this issue, we me
asured the absorption spectra of aqueous solutions of rhodamine 6G ove
r a wide range of concentrations. The lack of an isosbestic point near
508 nm indicates the presence of at least three species. Data analysi
s using the program SPECTRABIND described in [D. Toptygin, L. Brand, A
nal. Biochem. 224 (1995) 330] confirms the presence of trimers and tet
ramers in addition to dimers and monomers. The absorption peaks of the
monomer, dimer, trimer, and tetramer are at 526, 498, 485, and 475 nm
, respectively. (C) 1997 Elsevier Science B.V.