Fine tuning of polymer content for enhanced structure and luminescent properties of Eu3+:siloxane-poly(methyl methacrylate) hybrids to be applied in photonics

The increasing demand for multifunctional materials for use in several application fields has been encouraging research into luminescent hybrid materials. These have the advantage of combining features of both organic and inorganic matter, which can be tailored to enhance emission conditions. This work aims to elucidate structural/ luminescence relations of Eu3+:siloxane-poly(methyl methacrylate) hybrid materials. Polymer content was evaluated through characterization of samples with increasing polymer/Si molar ratios. Results showed that the sample with the highest amount of polymer in its composition, PMMA8, had optimized emission features on account of the larger number of carbonyl groups available for Eu3+ coordination. This enhancement is evidenced by the quantum efficiency (q) and lifetime (tau(exp)) values, which were considerably higher (q = 24.7% and tau(exp )= 0.62 ms) for PMMA8 hybrid than for the other samples. Thus, the hydrophobic polymer reduced the interaction of dopant ions to hydroxyl quenching groups and led to better dispersion, minimizing ion-ion energy transfer. (AU)