摘要：Y2SiO5: Re3+稀土发光材料是一类重要的稀土化合物。本文主要把Eu3+: Y2SiO5稀土发光材料作为研究对象，研究材料结构变化与荧光性能之间的联系，以及基质材料的组态、材料制备方法、掺杂离子类别等与结构变化之间的联系，为寻找荧光性能优异的掺杂稀土发光材料成为材料设计的基础。本文用高温固相法来制备Eu3+: Y2(Si1-xGex)O5。以Y2SiO5为基质，掺杂稀土离子Eu3+为发光中心，并探究共掺杂Ge敏化剂的影响。研究了助熔剂-固相法制备Eu3+: Y2(Si1-xGex)O5材料；研究不同助熔剂对Eu3+: Y2SiO5合成条件的影响，寻找合适的助熔剂；研究不同种类助熔剂对材料发光性的影响；研究掺杂浓度对材料光学性能的影响。35562
毕业论文关键字：助熔剂；高温固相法；Eu3+: Y2(Si1-xGex)O5纳米荧光粉
 Gentle, simple and easy method preparation of
Eu3 + : Y2SiO5 research of nanocrystals
Abstract:Y2SiO5: Re3+ luminescent materials are an important class of rare earth compounds. This article aims to Eu3+: Y2(Si1-xGex)O5 rare earth luminescent materials for the study, to explore the connection material microstructure changes between fluorescence characteristics and configuration of the matrix material doped ions between categories, preparation methods and other micro-structural changes and the association, seeking excellent fluorescent properties of doped rare earth luminescent materials designed to lay the foundation material. The study was prepared by high temperature solid phaseEu3+: Y2(Si1-xGex)O5 . Its Y2SiO5 matrix, incorporation of rare earth ions Eu3+ is a light emitting center, also studied the co-doped Ge sensitizer effect. Research on flux - Preparation of solid phase Eu3+: Y2(Si1-xGex)O5  nanocrystals; Eu3+ on Different flux: Impact Y2SiO5 nanocrystalline synthesis conditions, find a suitable flux; flux of different luminescent material impacts; research doping concentration, particle size and morphology, synthesis temperature on the optical properties of the material.
Keywords: flux；high temperature solid state method；Eu3+：Y2(Si1-xGex)O5 nanophosphor
目  录
1 绪论    1
1.1 发光材料    1
1.1.1 光致发光材料    1
1.1.2 电致发光材料    1
1.1.3 辐射发光材料    1
1.1.4 热释发光材料    3
1.1.5 光释发光材料    3
1.1.6 其他发光材料    3
1.2.1 稀土掺杂发光材料的概念    4
1.2.2 稀土掺杂发光材料概述    5
1.3 稀土掺杂发光材料制备原料    5
1.3.1 激活剂与共激活剂    5
1.3.2 敏化剂    6
1.3.3 其他原料    6
1.4 稀土掺杂发光材料制备方法    6
1.4.1 溶胶一凝胶法    6
1.4.2 共沉淀法    7
1.4.3 微乳液法    7
1.4.4 燃烧法    7
1.4.5 高温固相法    8
1.5 本课题的研究内容及意义    9
2 Y2SiO5:Eu3+的制备、表征与分析    10
2.1 实验试剂与实验仪器    10
2.1.1 主要试剂和原料    10
2.1.2 主要实验设备及仪器    10
2.2 助熔剂-固相反应合成Y2SiO5    11
2.2.1 助熔剂的影响    11
2.2.2 Y2SiO5粉体的XRD分析    12
2.3 Eu3+：Y2SiO5的制备、表征与分析    14
2.3.1 Eu3+：Y2SiO5的制备    14
2.3.2 Eu3+: Y2SiO5的XRD分析    15
3 Y2Si1-xGexO5: Eu3+的制备、表征与分析    19
3.1 实验试剂与实验仪器    19 温和的简易方法制备Eu3+ Y2SiO5纳米晶的研究:http://www.751com.cn/huaxue/lunwen_33572.html