Please use this identifier to cite or link to this item: http://paper.sci.ui.ac.id/jspui/handle/2808.28/247
Title: Fluorescence Properties of Microcomposite Ternary Europium Triethylene Glycol Picrate Complex Doped in Polymer
Authors: Kusrini, Eny
Tristantini, Dewi
Slamet
M, Virleenda
Setianingrum
Yulizar, Yoki
Keywords: Europium
Fluorescence; Microcomposite
PMMA
Precipitation-evaporation
Issue Date: Apr-2014
Publisher: Faculty of Engineering, Universitas Indonesia
Series/Report no.: Volume 5;No.1
Abstract: The aim of this study was to synthesize high luminescence materials containing the optimal combination of ternary europiumpicrate complex and matrices. The ternary europium-picrate-triethylene glycol (Eu-EO3-Pic) complex was doped in poly(methyl methacrylate), PMMA. The composites were impregnated in several matrices to form thin filmsvia spin coating technique. The microparticles of Eu-EO3-Piccomplex were prepared by reprecipitation-evaporation, then they were compared to analogous complex or microcomposite prepared by in-situ method. The Eu-EO3-Pic/PMMA microcomposites were characterized by fluorescence spectroscopy in acetone solution. The particle sizes distribution of microcomposites synthesized by reprecipitation-evaporation method (110.3 to 426.8 nm) were smaller compared to the microcomposites by in-situ method (641.7 nm). The PMMA was able to significantly enhance the fluorescence intensity of Eu-EO3-Pic microparticles. The fluorescence intensity of microcomposite by in situ-preparation was lower than that found in the microcomposites by reprecipitation-evaporation method. We also investigated the effect of different matrices on the photophysical properties. The effective intermolecular energy transfer from PMMA to the Eu-EO3-Pic complex would produce high sensitization efficiency. These microcomposites are very potential used as the emission material for organic light emitting devices.
URI: http://paper.sci.ui.ac.id/jspui/handle/2808.28/247
ISSN: 2086-9614
Appears in Collections:Journal Collection

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