摘要
采用高温固相法合成了BaZnP2O7:Eu2+,Mn2+荧光粉,并对其发光性质及Eu2+对Mn2+的能量传递机理进行了研究.Eu2+和Mn2+在380nm和670nm的发射峰分别由Eu2+的5d—4f跃迁和Mn2+的4T1(4G)—6A1(6S)跃迁产生.Eu2+对Mn2+的发光有很强的敏化作用,根据Dexter电多极相互作用的能量传递概率公式,判断出BaZnP2O7中Eu2+对Mn2+的能量传递属于电偶极-电四极相互作用引起的共振能量传递.
The BaZnP2O7: Eu^2+ , Mn^2+ phosphor was synthesized by high temperature solid state reaction. The luminescence properties and the energy transfer between Eu^2+ and Mn^2+ were investigated. The emission bands of Eu^2 + and Mn^2 + peaking at 380 nm and 670 nm were originated from 5d-4f transition of Eu^2+ which partly substituted the Ba^2+ sites and ^4T1 (^4G)-^6A1(^6S) transition of Mn^2+ occupying Zn^2+ sites, respectively. The dependence of Eu^2+ and Mn^2+ luminescence properties on their concentration was investigated. With the increasing Mn^2+ dopant content, the intensity of Eu^2+ was observed to decrease, but the intensity of Mn^2+ was simultaneously found to increase. It is suggested from this phenomenon that Mn^2+ ion is sensitized by Eu^2+ ion, in other words, there is an energy transfer from Eu^2+ to Mn^2 + in BaZnP2O7 host. According to the Dexter' s energy transfer formula of multipolar interaction, we have demonstrated that the energy transfer between Eu^2+ and Mn^2+ is due to the electric dipole-quadripole interaction of the resonance transfer.
出处
《物理学报》
SCIE
EI
CAS
CSCD
北大核心
2008年第1期581-585,共5页
Acta Physica Sinica
基金
河北省科学技术发展基金(51215103b)资助的课题~~
