Nitride and oxynitride phosphors for white LEDs: Synthesis, new phosphor discovery, crystal structure

IF 9.1 2区化学 Q1 CHEMISTRY, INORGANIC & NUCLEAR Progress in Solid State Chemistry Pub Date : 2018-09-01 DOI:10.1016/j.progsolidstchem.2017.11.002

Takashi Takeda, Rong-Jun Xie, Takayuki Suehiro, Naoto Hirosaki

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引用次数: 81

Abstract

Si,Al containing nitride and oxynitride phosphors have been applied to white LEDs. Phosphors play important roles to produce high color rendering in lighting and wide color gamut in display. Si,Al containing nitrides and oxynitrides have been studied as high-temperature materials with high strength and thermal shock resistance. The inherited high temperature property is utilized as low thermal quenching in luminescence. The increased covalent bonding character compared to oxide phosphors contributes to high efficiency in blue excitation. The crystal structure (especially the coordination sphere around luminescent center) dominates the luminescent property of phosphor. Wide variety of crystal structure in Si,Al containing nitride and oxynitride leads to multiplicity of luminescent property. In this contribution, Si,Al containing nitride and oxynitride phosphors are reviewed from viewpoints of synthesis, new phosphor discovery, and crystal structure.

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白光led用氮化物和氧化氮化物荧光粉:合成，新荧光粉的发现，晶体结构

含氮化硅、氮化铝和氮化氧荧光粉已应用于白光led。荧光粉在照明中具有高显色性，在显示中具有宽色域。硅、铝含氮化物和氧氮化物作为高强度、抗热震的高温材料进行了研究。利用遗传的高温特性作为发光的低热猝灭。与氧化物荧光粉相比，增加的共价键特性有助于提高蓝色激发的效率。晶体结构(尤其是发光中心周围的配位球)决定了荧光粉的发光性能。含氮化物和氧氮化物的硅、铝晶体结构的多样性导致了发光性能的多样性。本文综述了含氮化硅、含铝和含氧氮化硅荧光粉的合成、新荧光粉的发现和晶体结构。

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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.