Absorption, Fluorescence and Z-Scan Study of Anion and Dianion Structure of Fluorescein Sodium Salt
Year
: 2019
Abstract: The enhancement of fluorescence intensity and nonlinear absorption of a dye has application in Photodynamic
therapy and biological detection. In this work, it is shown that the Fluorescein sodium salt -FSS- have
dianion structure in water and anion structure in microemulsion -ME-. The optical nonlinearity of FSS at
different concentrations in aqueous solution and ME has been studied. The nonlinear absorption -ß-, nonlinear
refractive index -n2-, hyperpolarizability -- and the nonlinear susceptibility --3-- were characterized
by measuring the intensity dependent of open and close aperture. The FSS in water at 1 mM concentration
exhibited, ß = 9.03×10−8 mW−1, n2
= 2.88×10−15 m2W−1 and = 5.2×10−26 m−5V−2 was founded at
0.25 mM concentration showed. Moreover, the value of nonlinear optical properties of FSS-ME is higher than
an aqueous solution of FSS at below 0.25 mM. By perturbation theory and Raman spectra, it is indicated
that the formation of ME cannot change the polarity of ME but it can change the ratio of the dipole moment.
The molecular structure as well as the FSS dipole moment control by different formation of ME.
therapy and biological detection. In this work, it is shown that the Fluorescein sodium salt -FSS- have
dianion structure in water and anion structure in microemulsion -ME-. The optical nonlinearity of FSS at
different concentrations in aqueous solution and ME has been studied. The nonlinear absorption -ß-, nonlinear
refractive index -n2-, hyperpolarizability -- and the nonlinear susceptibility --3-- were characterized
by measuring the intensity dependent of open and close aperture. The FSS in water at 1 mM concentration
exhibited, ß = 9.03×10−8 mW−1, n2
= 2.88×10−15 m2W−1 and = 5.2×10−26 m−5V−2 was founded at
0.25 mM concentration showed. Moreover, the value of nonlinear optical properties of FSS-ME is higher than
an aqueous solution of FSS at below 0.25 mM. By perturbation theory and Raman spectra, it is indicated
that the formation of ME cannot change the polarity of ME but it can change the ratio of the dipole moment.
The molecular structure as well as the FSS dipole moment control by different formation of ME.
Keyword(s): Fluorescein Sodium Salt,Droplet,Nonlinear Optic,Dipole Moment
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Absorption, Fluorescence and Z-Scan Study of Anion and Dianion Structure of Fluorescein Sodium Salt
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| contributor author | سهیل شریفی | en |
| contributor author | سید مهدی شواکندی | en |
| contributor author | Amir Abbas Heidari | en |
| contributor author | Soheil SHarifi | fa |
| contributor author | Amir Abbas Heidari | fa |
| date accessioned | 2020-06-06T13:44:38Z | |
| date available | 2020-06-06T13:44:38Z | |
| date issued | 2019 | |
| identifier uri | https://libsearch.um.ac.ir:443/fum/handle/fum/3367297 | |
| description abstract | The enhancement of fluorescence intensity and nonlinear absorption of a dye has application in Photodynamic therapy and biological detection. In this work, it is shown that the Fluorescein sodium salt -FSS- have dianion structure in water and anion structure in microemulsion -ME-. The optical nonlinearity of FSS at different concentrations in aqueous solution and ME has been studied. The nonlinear absorption -ß-, nonlinear refractive index -n2-, hyperpolarizability -- and the nonlinear susceptibility --3-- were characterized by measuring the intensity dependent of open and close aperture. The FSS in water at 1 mM concentration exhibited, ß = 9.03×10−8 mW−1, n2 = 2.88×10−15 m2W−1 and = 5.2×10−26 m−5V−2 was founded at 0.25 mM concentration showed. Moreover, the value of nonlinear optical properties of FSS-ME is higher than an aqueous solution of FSS at below 0.25 mM. By perturbation theory and Raman spectra, it is indicated that the formation of ME cannot change the polarity of ME but it can change the ratio of the dipole moment. The molecular structure as well as the FSS dipole moment control by different formation of ME. | en |
| language | English | |
| title | Absorption, Fluorescence and Z-Scan Study of Anion and Dianion Structure of Fluorescein Sodium Salt | en |
| type | Journal Paper | |
| contenttype | External Fulltext | |
| subject keywords | Fluorescein Sodium Salt | en |
| subject keywords | Droplet | en |
| subject keywords | Nonlinear Optic | en |
| subject keywords | Dipole Moment | en |
| journal title | Journal of Nanoelectronics and Optoelectronics | fa |
| pages | 7-Jan | |
| journal volume | 14 | |
| journal issue | 1 | |
| identifier link | https://profdoc.um.ac.ir/paper-abstract-1073547.html | |
| identifier articleid | 1073547 |