| dc.description | The development of functionalized silica particles containing luminescent materials has received special attention
because of their biological applications such as optical markers in vitro and in vivo, clinical diagnosis and drug
delivery. The incorporation of Eu3+-complex into modified silica particles combines optical characteristics of Eu3+-
complex and properties of inorganic oxides, resulting in organic-inorganic hybrid materials.
In this work, we synthesize and characterize sub-microspheres of SiO2 decorated with a new complex of Eu3+ and
fluoxetine, an antidepressant of the selective serotonin reuptake inhibitor (SSRI) class. The Eu-complex and the
submicron-spheres (??~500nm) were characterized optically and photo-physical characteristics of these materials
were examined spectroscopically. In emission spectra of complex (Fig 1.a), four characteristic peaks of Eu3+ ion with
the maximum at ~580 nm, ~595 nm, ~614 nm, and ~702 nm accredited to 5D0 ??? 7FJ (J = 0-4) transitions appeared
upon excitation in UV region. The most intense peak at 614 nm is accountable for the bright red emission of the
ternary complex. For the SiO2 nanospheres decorated with the complex these transitions are close to the complex
but are identified the change in the symmetry around the Eu3+ ion when analyzing the spectra. Experimental intensity
parameters (????), lifetime (??), radiative (Arad) and non-radiative (Anrad) coefficients, and intrinsic quantum yield (Q Eu3+/Eu3+)
values were determined. 3D emission spectra for the Eu(tta)3???FX complex in the VUV region (Fig. 1b) revealed a
high emission band originated from (Eu3+) 5D0???7F2,4 transitions (centered around 614 and 702nm) under excitation
at near bandgap energy. Color purity and CIE parameters also suggest the red luminous behavior of complex.
Thermal and morphological behavior of the Eu-complex and submicron-spheres decorated with the Eu(tta)3???FX
complex are also evaluated (Fig1c). Our investigation has revealed that the synthesized complex and inorganic
hybrid materials could be used in preparing lighting systems, OLEDs, display devices and biological sensors owing
to their luminescent characteristics | |
