| 光谱学与光谱分析 |
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| Synthesis and Fluorescence Properties of Rare Earth Ions Co-Doped CaMoO4 |
| WU Wen1, XUAN Ya-wen2, XIAO Li-na1, YANG Zhi-guang1, ZHU Can-can1, XIE Jian-ping1* |
1. Department of Chemistry,Zhoukou Normal University,Zhoukou 466000, China
2. School of Mechanical & Electrical Engineering,Zhoukou Normal University,Zhoukou 466000, China |
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Abstract In this paper,a series of CaMoO4 phosphor co-doped rare earth ions were prepared with chemistry co-precipitation method.The concentration of Pr3+/Tb3+ and temperature had obvious influence on the luminescent properties. The crystal structures and spectrum characteristics of the samples were identified with X-ray powder diffraction (XRD) and fluorescence spectrophotometer (PL). According to XRD analysis, the main diffraction peaks of samples are consistent with the standard card (JCPDS 29-0351) of the diffraction peak data. This showed doped rare earth ions did not change matrix lattice structure. The emission spectrum excited by 275 nm exhibit sharp lines peaking at 488, 560, 621 and 560 nm assigned to the 3P0—3H4,3P0—3H5,1D2—3H4 and 3P0—3F2 transitions of the Pr3+ ions. The intensity of fluorescence reached the strongest when the concentration of the doping amount was 3%. The optimum calcination temperatures of CaMoO4∶0.03Pr3+ and CaMoO4∶0.05Tb3+ were 800 and 600 ℃. Furthermore, the intensity of excitation spectra and emission spectra are dependent on the concentration of the doping amount. The emission spectra intensities of CaMoO4∶Pr3+ phosphors decrease and CaMoO4∶Tb3+ phosphors firstly increase and then decrease because of concentration quenching effect with increasing Pr3+ and Tb3+ concentration. In addition,the luminescence properties of Pr3+ ion in CaMoO4∶0.03Pr3+, yTb3+ system could be evidently improved with co-doping of Tb3+ ions which was due to the efficient energy transfer process from Tb3+ to Pr3+ ions.
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Received: 2015-09-20
Accepted: 2015-12-16
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Corresponding Authors:
XIE Jian-ping
E-mail: kaoyanxie@aliyun.com
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[1] Fa Bin,Tian Yanwen,Chen Yongjie,et al. Lumin.,2009,129:585.
[2] Wang Xiaoxiao,Xian Yulun,Wang Gang,et al. Mater,2007,30:521.
[3] Wu Wen, Xuan Yawen, Yin Jianglong, et al. Res. Chem. Intermed., 2015, 41: 2479.
[4] Guo Chongfeng,Yang Hyun-kyoung,Jeong Jung-hyun. Lumin.,2010,130:1390.
[5] XUAN Ya-wen, WU Wen, YIN Jiang-long(宣亚文,武 文,尹江龙). Journal of Synthetic Crystals(人工晶体学报), 2012,43(7): 1402.
[6] YANG Li-xia, YIN Jiang-long, XUAN Ya-wen(杨丽霞, 尹江龙, 宣亚文). Journal of Synthetic Crystals(人工晶体学报), 2014,43(8): 2047.
[7] Journal of Enhanced luminescence in Materials Science: Materials in Electronics, 2013, 24(11): 4503.
[8] Li Panlai,Wang Zhijun,Yang Zhiping,et al. Journal of the Chinese Ceramic Society,2009,37(3):462.
[9] YUAN Xi-ming, TIAN Xi-ke, YU Jiang-bo(袁曦明,田熙科,于江波). Development and Application of Materials(材料开发与应用),2002,17(2):26.
[10] YUAN Xi-ming, XU Yong-sheng, YU Jiang-bo(袁曦明,许永胜,于江波). Chinese Rare Earths(稀土),2002,23(4):33.
[11] PU Chun-ying, LIU Ting-yu, ZHANG Qi-ren(濮春英,刘廷宇,张启仁). Journal of University of Shanghai for Science and Technology, 2008,30(2):113.
[12] SONG Xiao-lan,HUANG Xue-hui(宋晓岚,黄学辉). Fundamentals of Inorganic Material Science(无机材料科学基础). Chemical Industry Press,2006.
[13] LIU Hui-lian, YANG Jing-hai, LIU Wen-yan(刘惠莲,杨景海,刘文彦). Journal of Northeast Normal University·Natural Science Edition(东北师大学报·自然科学版),2007,39(3):75.
[14] WANG Zhi-jun, YANG Zhi-ping, WANG Ying(王志军,杨志平,王 颖). Chinese Journal of Luminescence(发光学报),2009,30(6):754.
[15] DENG Ke-wen, QIU Ke-hui, ZHANG Pei-cong(邓科文,邱克辉,张佩聪). New Chemical Materials(化工新型材料),2012,40(1):99.
[16] LI Pan-lai, YANG Zhi-ping, WANG Zhi-jun(李盼来,杨志平,王志军). Acta Physico-Chemica Sinica(物理化学学报),2008,24(1):179.
[17] WU Jing, ZHANG Ji-lin, ZHOU Wen-li(吴 静,张吉林,周文理). Chemical Journal of Chinese Universities(高等学校化学学报),2013,34(2):306.
[18] ZHAI Yong-qing, FENG Shi-hua, ZHANG Zhang(翟永清,冯仕华,张 章). Rare Metal Materials and Engineering(稀有金属材料与工程),2010,39(10):1825.
[19] LIU Yang, YU Ping, XIAO Ding-quan, et al(刘 洋,余 萍,肖定全,等). Journal of Funcational Materials(功能材料),2010,11(41): 1932.
[20] YANG Ting, LIN Cai-ping, JIN Xiao-zhi, et al(杨 婷,林彩萍,金晓智,等). Guangzhou Chemical Industry(广州化工),2013,4(14):92.
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