Concentration effect and temperature quenching of upconversion luminescence in Ba Gd_2ZnO_5:Er^(3+)/Yb^(3+) phosphor 被引量：10

Concentration effect and temperature quenching of upconversion luminescence in Ba Gd_2ZnO_5:Er^(3+)/Yb^(3+) phosphor

导出

摘要 Er^3＋/yb^3＋ codoped zincate BaGd2ZnO5 phosphors were synthesized via a traditional solid state reaction. The crystal structure and phase purity were checked by means of X-ray dfluence of Eiffraction （XRD）, and the results showed that pure phase BaGd2ZnO5 phosphors with various Er^3＋/yb^3＋ concentrations were obtained. The Er^3＋ and Yb^3＋ doping concentrations on the green and red upconversion emissions was studied. It was found that both green and red upconversion emissions under 980 nm excitation were two-photon processes independent from the rare earth doping concentrations. However, the upconversion luminescence intensities greatly depended on the rare earth doping concentration. Furthermore, the population processes of upconversion luminescence and the quenching mechanisms were analyzed. The temperature-dependent green upconvcrsion luminescence was studied, and the temperature quenching process of two green upconversion emissions was modeled. The thermal quenching processes of the green upconversion emissions could be well explained by the model we proposed. Er^3＋/yb^3＋ codoped zincate BaGd2ZnO5 phosphors were synthesized via a traditional solid state reaction. The crystal structure and phase purity were checked by means of X-ray dfluence of Eiffraction （XRD）, and the results showed that pure phase BaGd2ZnO5 phosphors with various Er^3＋/yb^3＋ concentrations were obtained. The Er^3＋ and Yb^3＋ doping concentrations on the green and red upconversion emissions was studied. It was found that both green and red upconversion emissions under 980 nm excitation were two-photon processes independent from the rare earth doping concentrations. However, the upconversion luminescence intensities greatly depended on the rare earth doping concentration. Furthermore, the population processes of upconversion luminescence and the quenching mechanisms were analyzed. The temperature-dependent green upconvcrsion luminescence was studied, and the temperature quenching process of two green upconversion emissions was modeled. The thermal quenching processes of the green upconversion emissions could be well explained by the model we proposed.

作者周天民张艳秋吴中立陈宝玖

机构地区 Department of Physics Dalian Maritime University

出处《Journal of Rare Earths》 SCIE EI CAS CSCD 2015年第7期686-692,共7页 稀土学报（英文版）

基金 Project supported by the National Natural Science Foundation of China(11104023,11104024,11374044) Fundamental Research Funds for the Central Universities(3132014087,3132014327,3132013100) the State Key Developmment Program for Basic Research of China(973 program,2012CB626801)

关键词 BaGd2ZnO5：Er^3＋/yb^3＋ phosphor solid state reaction UPCONVERSION CROSSOVER rare earths BaGd2ZnO5：Er^3＋/yb^3＋ phosphor solid state reaction upconversion crossover rare earths

分类号 TQ422 [化学工程]

作者简介 Corresponding author： CHEN Baojiu （E-mail： chenmbj@sohu.com; Tel.：＋86-411-84728909）

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