Recent progress on optical properties of double perovskite phosphors

IF 9.1 2区化学 Q1 CHEMISTRY, INORGANIC & NUCLEAR Progress in Solid State Chemistry Pub Date : 2023-03-01 DOI:10.1016/j.progsolidstchem.2023.100391

Sadhana Yadav , Dinesh Kumar , Ram Sagar Yadav , Akhilesh Kumar Singh

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引用次数: 4

Abstract

The double perovskite phosphor materials are physically, chemically and thermally stable in nature. The generalized formula of double perovskite is AA'BB'O₆ type. The transition metal and lanthanide ions can be doped in the double perovskite materials. The structure of perovskite materials is the key factor for optical properties of the phosphor materials. The transition metal ions produce broad emission band covering from near blue to NIR regions. They can even produce white light. Some combinations of transition metal ions show the energy transfer between them. On the other hand, the lanthanide ions emit sharp and narrow band emissions from UV to NIR regions because their transitions are not affected by the outer environment due to the shielding effect. The combinations of transition metals and lanthanide ions also involve in the energy transfer. This article comprises the recent development on the optical properties of transition metal (Mn⁴⁺) and lanthanide metal (Eu³⁺) doped double perovskite phosphor materials. The optical processes involved in photoluminescence have been discussed in detail. The applications of transition metal and lanthanide doped and co-doped double perovskite phosphor materials have also been summarized herein.

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双钙钛矿荧光粉光学性质研究进展

双钙钛矿荧光粉材料具有物理、化学和热稳定性。双钙钛矿的概式为AA'BB'O6型。在双钙钛矿材料中可以掺杂过渡金属和镧系离子。钙钛矿材料的结构是影响其光学性能的关键因素。过渡金属离子产生从近蓝色到近红外的宽发射带。它们甚至可以发出白光。过渡金属离子的某些组合表现出它们之间的能量转移。另一方面，由于屏蔽效应，镧系离子的跃迁不受外界环境的影响，从紫外到近红外区域发射出尖锐的窄带辐射。过渡金属和镧系离子的结合也参与了能量转移。本文综述了过渡金属(Mn4+)和镧系金属(Eu3+)掺杂双钙钛矿磷光材料光学性质的最新研究进展。详细讨论了光致发光的光学过程。本文还综述了过渡金属和镧系掺杂及共掺杂双钙钛矿磷光材料的应用。

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来源期刊

Progress in Solid State Chemistry 化学-无机化学与核化学

CiteScore

14.10

自引率

3.30%

发文量

期刊介绍： Progress in Solid State Chemistry offers critical reviews and specialized articles written by leading experts in the field, providing a comprehensive view of solid-state chemistry. It addresses the challenge of dispersed literature by offering up-to-date assessments of research progress and recent developments. Emphasis is placed on the relationship between physical properties and structural chemistry, particularly imperfections like vacancies and dislocations. The reviews published in Progress in Solid State Chemistry emphasize critical evaluation of the field, along with indications of current problems and future directions. Papers are not intended to be bibliographic in nature but rather to inform a broad range of readers in an inherently multidisciplinary field by providing expert treatises oriented both towards specialists in different areas of the solid state and towards nonspecialists. The authorship is international, and the subject matter will be of interest to chemists, materials scientists, physicists, metallurgists, crystallographers, ceramists, and engineers interested in the solid state.