Ce^(3+)/Eu^(2+)掺杂无机发光材料构效关系与唯象理论  被引量:8

Structure-property Correlation and Phenomenological Theory in Ce^(3+)/Eu^(2+)-doped Inorganic Luminescent Materials

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作  者:王淑欣 宋振[1] 刘泉林[1] WANG Shu-xin;SONG Zhen;LIU Quan-lin(School of Materials Science&Engineering,University of Science and Technology Beijing,Beijing 100083,China)

机构地区:[1]北京科技大学材料科学与工程学院,北京100083

出  处:《发光学报》2022年第9期1319-1339,I0001,共22页Chinese Journal of Luminescence

基  金:国家自然科学基金(51832005,51672027)资助项目。

摘  要:Ce^(3+)/Eu^(2+)掺杂无机发光材料在照明、显示、监测、示踪、防伪以及信息存储等领域具有重要应用。Ce^(3+)/Eu^(2+)的5d电子与基质材料中近邻阴离子配体之间存在强交互作用,共价键效应、晶体场劈裂和电声子耦合作用可以有效调控其激发光谱和发射光谱,从而赋予Ce^(3+)/Eu^(2+)掺杂无机固体高效可调的优异性能。近年来,研究人员研发出了许多Ce^(3+)/Eu^(2+)掺杂的无机发光材料,并深入研究了其成分、结构与性能之间的关系。本文系统综述了Ce^(3+)/Eu^(2+)掺杂无机发光材料的构效关系与唯象理论研究进展,详细总结了基质材料组分、晶体结构、局域结构和电子结构对发光性能的影响规律,并对未来发展提出了展望。Ce^(3+)/Eu^(2+)-doped inorganic luminescence materials have been well developed as an indis⁃pensable component in fields of lighting,display,monitoring,tracing,anti-counterfeiting,and in⁃formation storage.The f-d transitions from isolated luminescent centers Ce^(3+)/Eu^(2+)are strongly influ⁃enced by the coordinated crystalline environment,under which energy levels of Ce^(3+)/Eu^(2+)may be split and shifted due to covalency effect,crystal field splitting,and electron-phonon coupling,re⁃sulting in their highly tunable luminescence properties.To date,researchers have developed many high-performance Ce^(3+)/Eu^(2+)-doped luminescent materials,and a series of sound theories have been established to gain insight into the composition-structure-property correlations.Herein,we review the current progress in Ce^(3+)/Eu^(2+)-doped phosphors,focusing on composition-structure-property corre⁃lation and phenomenological theory.Particular attention is devoted to overviewing the effect of the local structure and electronic structure on the luminescence property.Finally,an outlook toward po⁃tential theory developments is proposed.

关 键 词:Ce^(3+)/Eu^(2+) 无机发光材料 构效关系 唯象理论 局域结构 电子结构 

分 类 号:O482.31[理学—固体物理]

 

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