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Torsional Disorder, Symmetry Breaking, and the Crystal Violet Shoulder Controversy

Jihad Sissaoui, Darya S. Budkina, Eric Vauthey

2023The Journal of Physical Chemistry Letters11 citationsDOIOpen Access PDF

Abstract

The nature of the lowest-energy electronic absorption band of crystal violet (CV) and particularly the origin of its high-energy shoulder have been debated since the middle of the past century. The most recent studies invoke a splitting of the S 1 state upon symmetry breaking induced by interactions with the solvent and/or the counterion. Using a combination of stationary and time-resolved polarized spectroscopy together with quantum-chemical calculations, we show that torsional disorder in the ground-state results in an inhomogeneous broadening of the absorption band of CV. The center of the band is mostly due to symmetric molecules with a degenerate S 1 state, whereas the edges originate from transitions to the S 1 and S 2 states of distorted symmetry-broken molecules. Transient-absorption measurements with different excitation wavelengths reveal that these two groups of molecules interconvert rapidly in liquid but not in a rigid environment.

Topics & Concepts

Degenerate energy levelsAbsorption spectroscopyAbsorption bandCrystal (programming language)Absorption (acoustics)MoleculeSymmetry (geometry)Molecular physicsCounterionGround stateAtomic physicsChemistryCrystal violetSpectroscopySpectral linePhysicsCondensed matter physicsIonQuantum mechanicsOpticsComputer scienceMathematicsPathologyMedicineGeometryProgramming languageSpectroscopy and Quantum Chemical StudiesPhotochemistry and Electron Transfer StudiesPhotosynthetic Processes and Mechanisms
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