Ultrafast Relaxation Dynamics from the S2 State of Malachite Green Studied with Femtosecond Upconversion Spectroscopy

Abstract

We have studied the relaxation dynamics in a triphenyl methane (TPM) dye, malachite green (MG), following S2-state excitation using fluorescence up-conversion measurements in ethanol and ethylene glycol solutions. Information on the mechanisms and dynamics of radiationless transitions from higher excited states in TPM dyes is interesting from the torsional dynamic aspects of the phenyl rings and for the applications of TPM dyes involving knowledge of the excited-state relaxation channels. Kinetic measurements at different wavelengths suggested a cascade population relaxation along the S2 state with a time constant of ∼130 fs that is almost independent of solvent viscosity in the two solvents used, contrary to the relaxation dynamics of the S1 state. Wavelength-dependent time-resolved anisotropy measurements along the S2 and S1 emission bands displayed successive reductions in the anisotropy values, indicating a continuous evolution to the S1 surface. A detailed analysis led us to propose a relaxation path...