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The nanopowders of SnO2 doped with different Eu3+ concentrations were synthesized using the modified Pechini method. The Eu3+ concentrations were high above solubility limit. The average size of crystallites was controlled by the sintering temperatures. The structure and the morphology of obtained powders were examined using the XRD (X-ray diffraction) and TEM (transmission electron microscopy) analyses. The Eu2Sn2O7 phase separation was observed at relatively high concentration of Eu3+ ions. The ZnS:Ag micropowders were mixed with the Eu3+:SnO2 powders and their normalized emission was used to measure a relative efficiency of Eu3+:SnO2. The photoluminescence spectra of mixed powders were measured in function of Eu3+ concentration and average size of nanocrystallites. The reference peak method was used for comparison of intensities of the samples and selection of optimal one. The influence of the average grain size and Eu3+ concen-tration on the phosphor’s efficiency was discussed. The presented results confirmed the rightness of synthesis of the Eu3+:SnO2 in form of nanocrystalites with relatively high Eu3+ concentration.
The nanopowders of SnO2 doped with different Eu3 + concentrations were synthesized using the modified Pechini method. The average size of crystallites was controlled by the sintering temperatures. The structure and the morphology of powder. XRD (X-ray diffraction) and TEM (transmission electron microscopy) analyzes. The EuSn2O7 phase separation was observed at a relatively high concentration of Eu3 + ions. The ZnS: Ag micropowders were mixed with the Eu3 +: SnO2 powders and their normalized emission was used to measure a relative efficiency of Eu3 +: SnO2. The photoluminescence spectra of mixed powders were measured in function of Eu3 + concentration and average size of nanocrystallites. The influence of the samples of the samples and the selection of optimal one. The influence of the average grain size and Eu3 + concen-tration on the phosphor’s efficiency was discussed The results of the rightness of synthesis of the Eu3 +: SnO2 in form of nanocrystalites with relatively high Eu3 + concentration.