Spectroscopic analysis of dye-silica core-shell nanoparticles (DSCSNPs)

Spectroscopic analysis of dye-silica core-shell nanoparticles (DSCSNPs)

Absorption and Fluorescence spectra of DSCSNPs are investigated at different concentrations, it was found that the shapes of the absorption and fluorescence spectra remained the same irrespective of an increase in the concentration, the absorption and fluorescence wavelengths peaks are located aroun...

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Bibliographic Details
Published in:High Capacity Optical Networks and Emerging/Enabling Technologies pp. 179 - 183
Main Authors: AISalhi, M. S., Aldwayyan, A. S., Jasas, A. H. M., Atif, M., Aslam Farooq, W.
Format: Conference Proceeding
Language:English
Published: IEEE 01-12-2012
Subjects:
Analytical models
dye-silica nanoparticles
Fluorescence
Laser beams
Laser modes
Nanoparticles
Optical scattering
photobleaching
photostability fluorescence spectra
Raman scattering
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Summary:Absorption and Fluorescence spectra of DSCSNPs are investigated at different concentrations, it was found that the shapes of the absorption and fluorescence spectra remained the same irrespective of an increase in the concentration, the absorption and fluorescence wavelengths peaks are located around 365nm and 440nm respectively. The intensities of DSCSNPs were observed to be greater than that of free C445 dye. Aging effects on fluorescence spectra of free C445 dye, dye-silane and DSCSNPs are studied after upon one month of preparation the samples. The results showed that the aging degradation slope of free C445 dye is more than seven times greater than that of DSCSNPs and the aging degradation slope of dye-silane is more than three times greater than that of DSCSNPs, so DSCSNPs seems to be more stable than free C445 dye and dye-silane. DSCSNPs showed severe photobleaching, presumably due to the penetration of amount of aerial oxygen molecules through the porous silica shell that caused photodegradation of majority of dye molecules, however, DSCSNPs showed better photostability than free dye.
ISBN:146732891X
9781467328913
ISSN:1949-4092
1949-4106
DOI:10.1109/HONET.2012.6421459