Journal of Surface Science and Technology

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Photosensitive Trans-Cis Isomerization of Cyanine Dye Stains-All by Biological Surfactants


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1 Universiw of Kalyani, Nadia-741 235, India
     

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Both the biological surfactants, sodium cholate and sodium deoxycholate red shift the λmax of the fluorescence emission beyond some characteristic surfactant/dye mole ratio (S/D 20.0 for cholate and 2.00 for deoxycholate). The two surfactants induce sharp blue shifted metachromasia in this dye initiated at these two characteristic S/D values. The red shift of the fluoescence peak has been interpreted in terms of trans→cis photoisomerization of the dye bound to the surfactants. The monomeric dye, free or bound to the surfactants, does not undergo this photoisomerization. In contrast, the nonionic surfactant Triton X-100 does not induce photosplitting, but induces single emission peak at 615 nm. The photophysics of this surfactant-induced changes in emission has been discussed. The structure of the all-trans and mono-cis isomer of Stains-all derived from computer modelling, has been shown.

Keywords

Cyanine Dye, Stains-All, Sodium Cholate, Sodium Deoxycltolate, Photoisomerization, Fluorescence.
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  • Photosensitive Trans-Cis Isomerization of Cyanine Dye Stains-All by Biological Surfactants

Abstract Views: 217  |  PDF Views: 2

Authors

Arup Goswami
Universiw of Kalyani, Nadia-741 235, India
Medini Kanta Pal
Universiw of Kalyani, Nadia-741 235, India

Abstract


Both the biological surfactants, sodium cholate and sodium deoxycholate red shift the λmax of the fluorescence emission beyond some characteristic surfactant/dye mole ratio (S/D 20.0 for cholate and 2.00 for deoxycholate). The two surfactants induce sharp blue shifted metachromasia in this dye initiated at these two characteristic S/D values. The red shift of the fluoescence peak has been interpreted in terms of trans→cis photoisomerization of the dye bound to the surfactants. The monomeric dye, free or bound to the surfactants, does not undergo this photoisomerization. In contrast, the nonionic surfactant Triton X-100 does not induce photosplitting, but induces single emission peak at 615 nm. The photophysics of this surfactant-induced changes in emission has been discussed. The structure of the all-trans and mono-cis isomer of Stains-all derived from computer modelling, has been shown.

Keywords


Cyanine Dye, Stains-All, Sodium Cholate, Sodium Deoxycltolate, Photoisomerization, Fluorescence.