Orange long afterglow phosphors in strontium stannate composite oxide system and preparation method thereof
A composite oxide, long afterglow luminescence technology, applied in luminescent materials, chemical instruments and methods, etc., can solve problems such as unreported, and achieve the effects of wide application prospects, good performance and low production costs
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Embodiment 1
[0026] Get A=2, B=1, x=0.001, according to the expression A(Sr 1-x O)·B(SnO 2 ):xSm 3+ The stoichiometric ratio of each substance in the formula was weighed respectively as strontium carbonate (SrCO 3 , analytically pure), tin dioxide (SnO 2 , analytically pure) and samarium oxide (Sm 2 o 3 , >99.999%), put it into a corundum crucible after fully grinding, heat to 1400 ° C, keep the temperature for 4 hours, the sample is naturally cooled with the furnace, and the final product long afterglow luminescent material can be obtained after grinding. The luminescent material emits obvious orange luminescence under the excitation of the ultraviolet lamp, and after the irradiation is stopped, an orange long afterglow luminescence can be observed, and the long afterglow luminescence time is about 30 minutes. Identified by XRD, the product is Sr 2 SnO 4 Pure phase (all XRD peaks correspond well to standard card 89-0374), figure 1 Shown is the XRD spectrum of the obtained long-las...
Embodiment 2
[0028] Get A=2, B=1, x=0.003, according to expression A(Sr 1-x O)·B(SnO 2 ):xSm 3+ The stoichiometric ratio of each substance in the formula was weighed to take strontium carbonate (SrCO 3 , analytically pure), tin dioxide (SnO 2 , analytically pure) and samarium oxide (Sm 2 o 3 , >99.999%), put it into a corundum crucible after fully grinding, heat to 1400 ° C, keep the temperature for 4 hours, the sample is naturally cooled with the furnace, and the final product long afterglow luminescent material can be obtained after grinding. The luminescent material emits obvious orange luminescence under the excitation of the ultraviolet lamp, and after the irradiation is stopped, orange long afterglow luminescence can be observed, and the long afterglow luminescence time exceeds 1 hour. Identified by XRD, the product is Sr 2 SnO 4 pure phase.
[0029] The luminescent material emits bright orange luminescence under the excitation of ultraviolet light, which is derived from Sm ...
Embodiment 3
[0031] Get A=2, B=1, x=0.01, according to expression A(Sr 1-x O)·B(SnO 2 ):xSm 3+ The stoichiometric ratio of each substance in the formula was weighed respectively as strontium carbonate (SrCO 3 , analytically pure), tin dioxide (SnO 2 , analytically pure) and samarium oxide (Sm 2 o 3 , >99.999%), put it into a corundum crucible after fully grinding, heat to 1400 ° C, keep the temperature for 5 hours, the sample is naturally cooled with the furnace, and the final product long afterglow luminescent material can be obtained after grinding. The luminescent material emits obvious orange luminescence under the excitation of the ultraviolet lamp, and after the irradiation is stopped, an orange long afterglow luminescence can be observed, and the long afterglow luminescence time is about 20 minutes. Identified by XRD, the product is Sr 2 SnO 4 pure phase. A high doping concentration changes the distribution and concentration of traps for the presence of external excitation l...
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