摘要
首次采用高压高温方法合成了Sr_2SiO_4:Eu^(3+)Bi^(3+)和SrSiO_3:Eu^(3+)Bi^(3+)发光材料,研究了合成压力、合成温度对发光特性的影响。与常压合成产物相比较,发光谱线发生了红移;谱线半宽度显著增大;发光强度和量子发光效率下降。X射线衍射分析得出,SrSiO_3:Eu^(3+)Bi^(3+)发生了结构相变,Sr_2SiO_4:Eu^(3+)Bi^(3+)结构未变但晶格参数发生了变化,且主衍射峰强度发生了反转。分析表明,发光特性的变化是压致晶场、库仑及自旋~轨道相互作用的变化引起的。
Sr2SiO4: Eu3+Bi3+. SrSiO3: Eu3+Bi3+ were synthesized by a high-pressure method for the first time. The effect of synthesizing pressures and temperatures on luminescence properties and structures of the samples was studied.The samples synthesized by both high-pressure and atmosphere method were analyzed with SEM. Compared with those synthesized under atmosphere, the red shift of emission peak for the sample obtained by high pressure occurred, the half-widths increased obviously and the intensity and quantum luminescence efficiency decreased. The structural transition of SrSiO3: Eu3+Bi3+ occurred, while the changing of lattice parameters and the intensity reversion of the main diffraction peaks appeared without structural transition for the Sr2SiO4: Eu3+Bi3+. It shows that the variation of luminescence characters is resulted from the pressure-induced changing of the crystal field, coulomb and spin-orbit interaction in the ligand.
出处
《高压物理学报》
CAS
CSCD
北大核心
1989年第3期198-202,共5页
Chinese Journal of High Pressure Physics
基金
国家自然科学基金委员会资助项目
关键词
硅酸锶
铕
发光特性
发光材料
合成
Eu3+-activated strontium silicate, high-pressure synthesis, structural -modifica-tion, red shift of emission peak.