Mechanisms of upconversion luminescence(UCL) of SrF2:Er phosphors corresponding to the 4G11∕2→4I15∕2,2H9∕2→4I15∕2,4F5∕2→4I15∕2,4F7∕2→4I15∕2,2H11∕2→4I15∕2,4S3∕2→4I15∕2,4F9∕2→4I15∕2, and 4I9∕2→...Mechanisms of upconversion luminescence(UCL) of SrF2:Er phosphors corresponding to the 4G11∕2→4I15∕2,2H9∕2→4I15∕2,4F5∕2→4I15∕2,4F7∕2→4I15∕2,2H11∕2→4I15∕2,4S3∕2→4I15∕2,4F9∕2→4I15∕2, and 4I9∕2→4I15∕2 transitions upon excitation of the 4I11∕2 level of Er3+ions were investigated. Energy transfer upconversion processes are responsible for the populating of the 2H9∕2,2H11∕2,4S3∕2, and 4F9∕2 levels. Cooperative process is the dominant mechanism of luminescence from 4S3∕2 and 4F9∕2 levels for SrF2:Er with high concentrations of Er3+ions. The UCL from 4G11∕2 and 4F5∕2 is explained by excited-state absorption. Cross-relaxation processes take part in the population of 4F9∕2 and 4I9∕2 levels. For quantifying material performance, the Er3+-concentration dependence of UCL and the absolute quantum yields of SrF2:Er were studied. The most intensive visible luminescence was obtained for SrF2:Er(14.2%) with 0.28% maximum quantum yield.展开更多
A novel up-converting phosphor,Na_xAl_yF_(x+3y)/CaF2(0.3 〈 x 〈 0.5,0 〈 y 〈 0.1) composite,is prepared by a hydrothermal process at 180°C and an annealing treatment at 500℃.X-ray diffraction(XRD) patte...A novel up-converting phosphor,Na_xAl_yF_(x+3y)/CaF2(0.3 〈 x 〈 0.5,0 〈 y 〈 0.1) composite,is prepared by a hydrothermal process at 180°C and an annealing treatment at 500℃.X-ray diffraction(XRD) pattern indicates that Na_xAl_yF_(x+3y)/CaF_2 is a composite consisting of NaF,Na_3 AlF_6,and CaF_2.The up-conversion luminescence properties of this phosphor are investigated by fluorescence spectrometer.Results show that Na_xAl_yF_(x+3y)/CaF_2 exhibits visible-to-ultraviolet up-conversion luminescence properties.The emission peaks at 316 and 336 nm are observed when excited by 610 nm,the luminescence lifetime of the emissions is great than 18 ms,and the internal fluorescence quantum yield is 4.2%.Additionally,the luminescent mechanism of this phosphor is also mentioned.展开更多
基金supported by the Russian Science Foundation(No.17-72-10163)
文摘Mechanisms of upconversion luminescence(UCL) of SrF2:Er phosphors corresponding to the 4G11∕2→4I15∕2,2H9∕2→4I15∕2,4F5∕2→4I15∕2,4F7∕2→4I15∕2,2H11∕2→4I15∕2,4S3∕2→4I15∕2,4F9∕2→4I15∕2, and 4I9∕2→4I15∕2 transitions upon excitation of the 4I11∕2 level of Er3+ions were investigated. Energy transfer upconversion processes are responsible for the populating of the 2H9∕2,2H11∕2,4S3∕2, and 4F9∕2 levels. Cooperative process is the dominant mechanism of luminescence from 4S3∕2 and 4F9∕2 levels for SrF2:Er with high concentrations of Er3+ions. The UCL from 4G11∕2 and 4F5∕2 is explained by excited-state absorption. Cross-relaxation processes take part in the population of 4F9∕2 and 4I9∕2 levels. For quantifying material performance, the Er3+-concentration dependence of UCL and the absolute quantum yields of SrF2:Er were studied. The most intensive visible luminescence was obtained for SrF2:Er(14.2%) with 0.28% maximum quantum yield.
基金supported by the National Natural Science Foundation of China(No.20876125)the Research Fund for the Doctoral Program of Higher Education(No.20096101110013)Northwest University Graduate Cross-discipline Funds(Nos.09YJC24 and 09YJC27)
文摘A novel up-converting phosphor,Na_xAl_yF_(x+3y)/CaF2(0.3 〈 x 〈 0.5,0 〈 y 〈 0.1) composite,is prepared by a hydrothermal process at 180°C and an annealing treatment at 500℃.X-ray diffraction(XRD) pattern indicates that Na_xAl_yF_(x+3y)/CaF_2 is a composite consisting of NaF,Na_3 AlF_6,and CaF_2.The up-conversion luminescence properties of this phosphor are investigated by fluorescence spectrometer.Results show that Na_xAl_yF_(x+3y)/CaF_2 exhibits visible-to-ultraviolet up-conversion luminescence properties.The emission peaks at 316 and 336 nm are observed when excited by 610 nm,the luminescence lifetime of the emissions is great than 18 ms,and the internal fluorescence quantum yield is 4.2%.Additionally,the luminescent mechanism of this phosphor is also mentioned.
