6533b82cfe1ef96bd128fe5b

RESEARCH PRODUCT

Comprehensive study on different crystal field environments in highly efficient NaLaF4:Er3+ upconversion phosphor

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Abstract Complex fluorides, especially rare-earth doped NaREF 4 (RE = Y 3+ , La 3+ or Gd 3+ ), are promising materials for the upconversion luminescence mostly due to low phonon energy of their matrices and multisite nature of the crystalline lattice. Although multisite formation in hexagonal NaREF 4 structures has generally been proved, the actual number of the active sites in different structures varies from two (NaGdF 4 ) to seven (NaYF 4 ). The aim of this work has been to study multisite formation in NaLaF 4 :Er 3+ . For this purpose low-temperature site-selective spectroscopy measurements in hexagonal NaLaF 4 :Er 3+ have been performed. Excitation at different wavelengths corresponding to the excitation of 4 F 7/2 level of Er 3+ ions has revealed three distinct luminescence spectra in the green spectral region associated with 4 S 3/2  →  4 I 15/2 electronic transition. The number of the spectra has been sufficient to model experimentally measured luminescence spectra at any excitation wavelength as a linear combination of the distinct spectra. The analysis of the structure of the material and the results of site-selective spectroscopy signify the presence of at least three different crystalline field environments where Er 3+ ions incorporate. Upon site-selective excitation of Er 3+ located at a specific site energy transfer to erbium ions located at other sites has been observed in both the upconversion and downconversion luminescence processes. The enhanced energy transfer between the different sites in NaLaF 4 :Er 3+ signifies the importance of the multisite nature of the structure, which is a key factor for an efficient upconversion luminescence.