Affiliation:
1. Applied Chemistry and Engineering Research -Centre of Excellence (ACER CoE) Mohammed VI Polytechnic University (UM6P) Lot 660, Hay Moulay Rachid 43150 Benguerir Morocco
2. Laboratoire de Chimie de Coordination du CNRS 205, route de Narbonne, BP 44099 F-31077 Toulouse Cedex 4 France
3. IMED-Laboratory Cadi Ayyad University BP: 549 Av, Abdelkarim Khattabi 40000 Marrakech Morocco
Abstract
AbstractIn this study, a set of β‐diketonate samarium(III) complexes–namely, [Sm(TTA)3Phen], [Sm(TTA)3DPEPO], [Sm(TTA)3Bipy], and [Sm(TTA)3Pyra]–has been synthesized and comprehensively characterized. Upon excitation, these complexes exhibit distinct emissions at 566 nm, 610 nm, 650 nm, and 710 nm, respectively, corresponding to the electronic transitions 4G5/2→6H5/2, 4G5/2→6H7/2, 4G5/2→6H9/2, and 4G5/2→6H11/2. Notably, the most pronounced pinkish‐red emission is associated with the peak at 650 nm. Furthermore, the [Sm(TTA)3DPEPO] complex displays a remarkable photoluminescence quantum yield, reaching up to 15.77 % in a PMMA film matrix. The investigation also involved a prolonged examination lasting over 1200 hours, during which PMMA films doped with the samarium complexes were subjected to humidity and weather conditions to evaluate their photoluminescence stability. The results indicate consistent emissions throughout the humidity test, with an eventual cessation after 1200 hours–except in the case of [Sm(TTA)3Phen] under weather conditions. The enduring emission in this scenario is attributed to the robustness of the phenanthroline ligand, thus highlighting its role in enhancing the durability of the complex.