Abstract
Light-emitting devices are important materials for photonic applications, and lanthanide complexes have been incorporated into polymers to produce luminescent flexible composite materials for large-area optoelectronic devices. To optimize the synthetic strategy of core–shell luminescent nanostructures, in the present study, we report on a bottom-up approach to synthesize a monolayer of the tris(dibenzoylmethane) mono(5-amino-1,10-phenanthroline)europium(III) complex covalent-assembled on top of a film composed of polystyrene chains that, in turn, were covalently grown perpendicular to the Si(100) surface by an atom-transfer radical-polymerization reaction. The electronic characterization of the final monolayer was performed by X-ray photoelectron spectroscopy, IR, UV–visible, and luminescence measurements. The surface morphology was imaged by atomic force microscopy. Emission measurements revealed the luminescent behavior of the Eu monolayer.
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