摘要
采用固相法制备了蓝白色LiSrBO3∶Ce3+材料.测得LiSrBO3∶Ce3+材料的发射光谱为一个主峰位于436 nm的非对称单峰宽谱;监测436 nm发射峰时所得材料的激发光谱为一个主峰位于369 nm的宽谱.利用Van Uitert公式计算了Ce3+取代LiSrBO3中Sr时所占晶体学格位,得出433 nm发射带归属于九配位的Ce3+发射,469 nm发射带起源于八配位的Ce3+发射.研究了Ce3+浓度对LiSrBO3∶Ce3+材料发光强度的影响,研究结果显示,随着Ce3+浓度的增大,发光强度呈现先增大后减小的趋势,在Ce3+摩尔分数为3%时到达峰值,根据Dexter理论,其浓度猝灭机理为电偶极-偶极相互作用.引入Li+,Na+和K+作为电荷补偿剂时发现,LiSrBO3∶Ce3+材料的发射光谱强度均得到了明显的增强.利用InGaN管芯(370 nm)激发LiSrBO3∶Ce3+材料时,获得了很好的蓝白光发射,色坐标为(x=0.289,y=0.293).
The blue white LiSrBO3: Ce^3+ phosphor was synthesized with solid-state method. The emission spectrum of LiSrBO3: Ce^3+ phosphor shows one dissymmetrical band at 436 nm. The excitation spectrum for 436 nm emission has broad band at 369 nm. The crystallographic sites of Ce^3+ in LiSrBO3 were calculated by Van Uitert formula. The results show that the emission band centered at 433 nm originates from the Ce^3+ center of the nine compounds, the other emission band centered at 469 nm originates from the Ce^3 + center of the eight compounds. The effect of Ce^3 + molar fraction on luminescent intensity of LiSrBO3 : Ce^3 + phosphor was in- vestigated, the result shows that the luminescent intensity firstly increases with increasing Ce^3 + molar fraction, then decreases, and reaches the maximal value at 3% Ce^3+. The concentration quenching mechanisms are the D-D interaction by Dexter theory. Under the condition of doping charge compensation Li^+, Na^+ and K^+ , the emission spectrum intensity of LiSrBO3 : Ce^3+ was heightened. The relative emission spectrum of the blue white-emitting InGaN-based LiSrBO3: Ce^3+ LED was investigated, and the CIE chromaticity of lnGaN-based LiSrBO3 : Ce^3+ LED is x = 0. 289, y = 0. 293.
出处
《高等学校化学学报》
SCIE
EI
CAS
CSCD
北大核心
2009年第8期1487-1491,共5页
Chemical Journal of Chinese Universities
基金
河北省科学技术发展基金(批准号:51215103b)
河北省自然科学基金(批准号:E2009000209)
河北大学青年基金(批准号:2006Q06)资助
