Abstract
Hybrid materials were synthesized using a high temperature reaction. We used 80PbF 2 –20B 2 O 3 glass as an inorganic matrix and various phenanthroline complexes europium(III) – as organic phosphors. The photoluminescence spectra of hybrid materials were measured just after synthesis and after heat treatment. We suggested that an exchange reaction between a Eu-complex and a glass matrix had occurred.
Highlights
Hybrid materials (HM) based on metal-organic phosphors and inorganic glasses are promising materials for developing new light emitting devices [1,2,3]
We suggested that an exchange reaction between a Eu-complex and a glass matrix had occurred
In our previous research concerning on the fabrication of bulk and film hybrid materials, we considered boron oxide [2,3] as a glass matrix
Summary
Hybrid materials (HM) based on metal-organic phosphors and inorganic glasses are promising materials for developing new light emitting devices [1,2,3]. Abstract Hybrid materials were synthesized using a high temperature reaction. We used 80PbF2–20B2O3 glass as an inorganic matrix and various phenanthroline complexes europium(III) – as organic phosphors. The photoluminescence spectra of hybrid materials were measured just after synthesis and after heat treatment.
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