Abstract
Spectroscopic methods and theoretical calculations were used to study the photophysical properties of colchicine (1). The characteristic bands of colchicine (1) transitions occurring at ∼245 nm and 350 nm arise from n–π * and π–π * transitions, and were found to be blue shifted with increasing polarity index of the solvent and red shifted (bathocrhomic) with increasing acidity of the media. Solvent type and polarity were found to affect both the rate constant and photo conversion yield. Excitation of colchicine (1) at 366 nm populates the S1 orbital, from which the photoreaction of colchicine (1) initially produces lumicolchicine directly in its ground state by a concerted disrotatory electrocyclization (i.e., 4π electrocyclization involving the tropolone ring). The acidity of the media affects both rate constants and conversion yield; both of these were inversely proportional to the acid concentration. The presence of acid decreases the photo conversion yield of colchicine (1) from 90% to 40%. The ionic strength affects both the rate constants and the photo conversion yield; rate constants are inversely related to the ionic strength. The photochemistry of colchicine (1) is explained on the basis of the initial formation of a solvation complex in the ground state.
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Ghanem, R., Baker, H., Seif, M.A. et al. Photochemical Transformation of Colchicine: A Kinetic Study. J Solution Chem 39, 441–456 (2010). https://doi.org/10.1007/s10953-010-9515-z
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DOI: https://doi.org/10.1007/s10953-010-9515-z