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白光LED用荧光粉Ba_(1.97)Ca_(1-x)(B_3O_6)_2∶Eu_(0.03)~(2+),Mn_x~(2+)的制备及其发光特性
引用本文:Song EH,Zhao WR,Zhou GX,Dou XH,Yun J,Yi CY. 白光LED用荧光粉Ba_(1.97)Ca_(1-x)(B_3O_6)_2∶Eu_(0.03)~(2+),Mn_x~(2+)的制备及其发光特性[J]. 光谱学与光谱分析, 2010, 30(12): 3191-3194. DOI: 10.3964/j.issn.1000-0593(2010)12-3191-04
作者姓名:Song EH  Zhao WR  Zhou GX  Dou XH  Yun J  Yi CY
基金项目:国家自然科学青年基金项目,广东省创新基金项目,惠州市产学研结合项目
摘    要:采用高温固相反应法制备了Ba1.97Ca1-x(B3O6)2∶Eu2+,Mnx2+(x=0,0.03,0.06,0.15)荧光粉,研究了其相组成与荧光特性。结果表明,样品具有单相Ba2Ca(B3O6)2晶体结构。Eu2+同时占据Ba2+格位和Ca2+格位。在317 nm波长的紫外光激发下,Eu2+辐射出峰值在450 nm附近的宽谱蓝光。通过能量传递作用,Mn2+辐射峰值为600 nm左右的宽谱红光。蓝光和红光叠加形成色坐标为(x=0.371,y=0.282)的近白光发射。样品的激发光谱分布在250~400 nm的波长范围,有望在紫外激发的白光LED中获得应用。

关 键 词:光致发光  白光  LED  荧光粉

Preparation and luminescence characteristics of Ba1.97 Ca1-x (B3O6)2: Eu(0.03)2+, Mn(x)2+ phosphor for white LED
Song En-Hai,Zhao Wei-Ren,Zhou Guo-Xiong,Dou Xi-Hua,Yun Jun,Yi Chun-Yu. Preparation and luminescence characteristics of Ba1.97 Ca1-x (B3O6)2: Eu(0.03)2+, Mn(x)2+ phosphor for white LED[J]. Spectroscopy and Spectral Analysis, 2010, 30(12): 3191-3194. DOI: 10.3964/j.issn.1000-0593(2010)12-3191-04
Authors:Song En-Hai  Zhao Wei-Ren  Zhou Guo-Xiong  Dou Xi-Hua  Yun Jun  Yi Chun-Yu
Affiliation:School of Physics & Optoelectronic Engineering, Guangdong University of Technology, Guangzhou 510006, China.
Abstract:The Ba1.97 Ca1-x (B3O6)2 : Eu2+, Mn(x)2+ (x = 0, 0.03, 0.06, 0.15) phosphors were synthesized by high temperature solid-state reaction, and their phase composition and luminescence properties were studied. In these phosphors, Eu2+ locates at the crystal sites of Ba2+ and Ca2+ ions. Under 317 nm UV light excitation, the 5d --> 4f transition of Eu2+ forms a broad blue emission band with a peak at 450 nm. With the energy transfer from Eu2+ ions, Mn2+ ions emit a broad red band with the peak at 600 nm. The mixture of the broad blue emission and a broad red emission forms an approximate white light with the CIE chromaticity (x = 0.371, y = 0.282). The phosphors can be excited effectively by UV light in the range of 250-400 nm, so they are the potential candidates for single white light-emitting phosphor excited by UV-LED.
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