Quantum Mechanics Calculations on Rhodamine Dyes Require Inclusion of Solvent Water for Accurate Representation of the Structure

Abstract

DFT studies of structural and electrostatic properties of two rhodamines are reported. For one compound, a sulforhodamine, a crystallographic structure determination was used to validate the computational approach. For the other compound, N,N,N‘,N‘-tetramethylrhodamine, we considered both its lactone and quinonoid forms. Geometry optimization of the quinonoid form required inclusion of solvent effects to prevent its collapse into the lactone. Best agreement with the experimental preference for the quinonoid form in solvents of high polarity was obtained when explicit water molecules were added to a continuous solvent model. The quinonoid structures of both rhodamines are rather rigid molecules, with a strong charge separation mostly localized around the N atoms (positive pole) and around the sulfonate or carboxylate groups (negative pole). In the quinonoid structures, rotation around the N−C(xanthene) bond is considerably restricted by extensive conjugation of the N atoms with the xanthene ring. The lacto...