Abstract
One of the important features of polymethine (cyanine) dyes is isomerization around one of C–C bonds of the polymethine chain. In this review, spectral properties of the isomers, photoisomerization and thermal back isomerization of carbocyanine dyes, mostly meso-substituted carbocyanine dyes, are considered. meso-Alkyl-substituted thiacarbocyanine dyes are present in polar solvents mainly as cis isomers and, hence, exhibit no photoisomerization, whereas in nonpolar solvents, in which the dyes are in the trans form, photoisomerization takes place. In contrast, the meso-substituted dyes 3,3′-dimethyl-9-phenylthiacarbocyanine and 3,3′-diethyl-9-(2-hydroxy-4-methoxyphenyl)thiacarbocyanine occur as trans isomers and exhibit photoisomerization in both polar and nonpolar solvents. The behavior of these dyes may be explained by the fact that the phenyl ring of the substituent in their molecules can be twisted at some angle, removing the substituent from the plane of the molecule and reducing its steric effect on the conformation of the trans isomer. In some cases, photoisomerization of cis isomers of meso-substituted carbocyanine dyes is also observed (for some meso-alkyl-substituted dyes complexed with DNA and chondroitin-4-sulfate; for 3,3′-diethyl-9-methoxythiacarbocyanine in moderate polarity solvents). The cycle photoisomerization–thermal back isomerization of cyanine dyes can be used in various systems of information storage and deserves further investigation using modern research methods.
Highlights
Isomerization reactions, which involve rotation of a bulky molecular group around a body-fixed axis, often play a fundamental role in chemical and biological processes both in solution and in organized assemblies
A lot of works have been published on photophysics and photochemistry of polymethine dyes
Photoisomerization is one of the main properties of polymethine dyes; at present, it is being studied in detail with the use of modern micro, nano, pico- and femtosecond techniques
Summary
Isomerization reactions, which involve rotation of a bulky molecular group around a body-fixed axis, often play a fundamental role in chemical and biological processes both in solution and in organized assemblies. Cyanine dyes attract interest due to the prospects of their use as spectral-fluorescent probes and labels in the study of various biological systems [9,10,11,12], and in biomedicine for the purposes of visualization of tissues and photodynamic therapy [6,13,14,15,16] This is due to the unique properties of cyanine dyes, which are. Various fields of applications of cyanine dyes determine the need for studying their photophysical and photochemical properties of in cyanine solutions determined by the key features of their their molecular structure.and. Various fields of applications dyes determine the need for studying photophysical photochemical properties in solutions and molecularly organized media. Dyes the need for studying and determine molecularly organized media. their photophysical and photochemical properties in solutions and molecularly organized media
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