The sites of Gd3+ in the luminescent matrix La1−xGdxMgAl11O19: Single crystal structure determination and site-selective excitation of Gd3+

Abstract

Single crystals of La_1−xGd_xMgAl₁₁O₁₉ for x=0.02 to 1 have been grown from the melt by the Verneuil (flame fusion) method. The localization of Gd³⁺ ions in the matrix has been obtained using x‐ray diffraction and Gd³⁺ fluorescence techniques giving the average and the local structure of the material. The resolution of the crystal structure, of La_0.4Gd_0.6MgAl₁₁O₁₉ homolog, indicates that this compound is of the distorted magnetoplumbite (MP) type (hexagonal P6₃/ mmc). Lanthanide ions lie in the mirror plane in two kinds of sites: the (2d) regular MP one (D_3h symmetry) occupied by La³⁺ ions, the distorted (12j) one (C_s symmetry) partially filled up and containing only Gd³⁺. Some oxygen ions of the Ln coordination polyhedron may be missing leading to a lowering of the true symmetry of the sites. Site selective excitation of the fluorescence of Gd³⁺ and emission spectra have been carried out on crystals with different x values. It indicates that Gd³⁺ ions are distributed mainly among two sites, A and B. Crystal field analysis of the splitting of the ⁶P terms of Gd³⁺ determined on the excitation spectra show that site A is close to the ideal D_3h symmetry while site B is a strongly distorted site. This leads to the identification A=(2d), B=(12j). The occupancy is larger for site B than for site A in agreement with the refinement of the structure. Selective laser excitation into the A site induces emission of the B sites as a result of energy transfer which is demonstrated by the fluorescence decay. No evidence of energy migration is found for gadolinium content up to 100%. Fluorescence spectroscopy and crystal structure determination appear complementary to obtain a detailed description of the sites of Gd³⁺ in La_1−xGd_xMgAl₁₁O₁₉.