Electron Spin Resonance Study on Local Structure of Manganese Ions Doped in Gamma-Aluminum Oxynitride Phosphors

Journal of Light & Visual Environment Pub Date : 2012-04-01 DOI:10.2150/JLVE.36.6

M. Kitaura, Ai Harima, R. Xie, T. Takeda, N. Hirosaki, A. Ohnishi, M. Sasaki

{"title":"Electron Spin Resonance Study on Local Structure of Manganese Ions Doped in Gamma-Aluminum Oxynitride Phosphors","authors":"M. Kitaura, Ai Harima, R. Xie, T. Takeda, N. Hirosaki, A. Ohnishi, M. Sasaki","doi":"10.2150/JLVE.36.6","DOIUrl":null,"url":null,"abstract":"We have studied the local structure of manganese ion doped in gamma aluminum oxynitride phosphors ( γ -AlON: Mn) using electron spin resonance (ESR) experiment. Six sharp peaks appear in ESR spectra of γ -AlON: Mn, together with ﬁve weak doublets. These structures are caused by the hyperﬁne interaction of 3 d electrons with the 55 Mn nucleus of spin I = 5/2. The six peaks are attributed to the allowed transitions (Δ M I = 0) between hyperﬁne splitting states of M s =(cid:156) 1/2. The ﬁve doublets are interpreted as the forbidden transitions (Δ M I =(cid:156) 1) between the hyperﬁne splitting states. The spectral feature of γ -AlON: Mn resembles with the ESR spectrum of Mn 2 + doped MgAl 2 O 4 spinel, in which Mn 2 + ions are substituted for tetrahedral Mg 2 + sites. Since γ -AlON is also of the spinel structure, it is suggested that Mn 2 + ions occupy tetrahedral Al 3 + sites. We further chased the effect of Mg 2 + co-doping on ESR spectra of Mn 2 + ions in γ -AlON, in order to elucidate the luminescence enhancement in γ -AlON: Mn, Mg. It turned out that the Mg 2 + co-doping increases Mn 2 + ions at tetrahedral Al 3 + sites.","PeriodicalId":311488,"journal":{"name":"Journal of Light & Visual Environment","volume":"9 1","pages":"0"},"PeriodicalIF":0.0000,"publicationDate":"2012-04-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"5","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Journal of Light & Visual Environment","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.2150/JLVE.36.6","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"","JCRName":"","Score":null,"Total":0}

引用次数: 5

Abstract

We have studied the local structure of manganese ion doped in gamma aluminum oxynitride phosphors ( γ -AlON: Mn) using electron spin resonance (ESR) experiment. Six sharp peaks appear in ESR spectra of γ -AlON: Mn, together with ﬁve weak doublets. These structures are caused by the hyperﬁne interaction of 3 d electrons with the 55 Mn nucleus of spin I = 5/2. The six peaks are attributed to the allowed transitions (Δ M I = 0) between hyperﬁne splitting states of M s =(cid:156) 1/2. The ﬁve doublets are interpreted as the forbidden transitions (Δ M I =(cid:156) 1) between the hyperﬁne splitting states. The spectral feature of γ -AlON: Mn resembles with the ESR spectrum of Mn 2 + doped MgAl 2 O 4 spinel, in which Mn 2 + ions are substituted for tetrahedral Mg 2 + sites. Since γ -AlON is also of the spinel structure, it is suggested that Mn 2 + ions occupy tetrahedral Al 3 + sites. We further chased the effect of Mg 2 + co-doping on ESR spectra of Mn 2 + ions in γ -AlON, in order to elucidate the luminescence enhancement in γ -AlON: Mn, Mg. It turned out that the Mg 2 + co-doping increases Mn 2 + ions at tetrahedral Al 3 + sites.

查看原文本刊更多论文

γ -氧化氮化铝荧光粉中掺杂锰离子局部结构的电子自旋共振研究

利用电子自旋共振(ESR)实验研究了γ -AlON: Mn氧氮化铝荧光粉中掺杂锰离子的局部结构。γ -AlON: Mn的ESR谱出现6个尖峰，外加5个弱重偶态。这些结构是由三维电子与自旋I = 5/2的55mn原子核的超精细相互作用引起的。这6个峰归因于M s =(cid:156) 1/2的超细分裂态之间允许的跃迁(Δ M I = 0)。这五个重态被解释为超精细分裂态之间的禁止跃迁(Δ M I =(cid:156) 1)。γ -AlON: Mn的光谱特征与Mn 2 +掺杂mgal2o4尖晶石的ESR光谱相似，其中Mn 2 +离子取代了四面体的Mg 2 +位点。由于γ -AlON也具有尖晶石结构，表明Mn 2 +离子占据了四面体Al 3 +的位置。我们进一步追踪了Mg +共掺杂对γ -AlON中Mn 2 +离子ESR谱的影响，以阐明γ -AlON: Mn, Mg中的发光增强。结果表明，mg2 +共掺杂增加了四面体Al 3 +位上的Mn 2 +离子。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

求助全文

约1分钟内获得全文求助全文

来源期刊

Journal of Light & Visual Environment

自引率

0.00%

发文量