Analysis of structural defects and their influence on red-emitting γ-Al2O3:Mn4+,Mg2+ nanowires using positron annihilation spectroscopy

IF 3.2 4区 化学 Q2 CHEMISTRY, ANALYTICAL
Luminescence Pub Date : 2024-08-28 DOI:10.1002/bio.4881
Pham Thi Hue, Nguyen Thi Ngoc Hue, Nguyen Van Tiep, Nguyen Vu Minh Trung, Phan Trong Phuc, La Ly Nguyen, Lo Thai Son, Le Thi Quynh Trang, Ngo Dang Trung, Nguyen Quang Hung, Luu Anh Tuyen, Nguyen Hoang Duy
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Abstract

The present paper reported on the analysis of structural defects and their influence on the red-emitting γ-Al2O3:Mn4+,Mg2+ nanowires using positron annihilation spectroscopy (PAS). The nanowires were synthesized by hydrothermal method and low-temperature post-treatment using glucose as a reducing agent. X-ray diffraction (XRD), scanning electron microscopy (SEM), photoluminescence (PL), and photoluminescence excitation (PLE) were utilized, respectively, for determining the structural phase, morphology and red-emitting intensity in studied samples. Three PAS experiments, namely, positron annihilation lifetime (PAL), Doppler broadening (DB), and electron momentum distribution (EMD), were simultaneously performed to investigate the formations of structural defects in synthesized materials. Obtained results indicated that the doping concentration of 0.06% was optimal for the substitution of Mn4+ and Mg2+ to two Al3+ sites and the formation of oxygen vacancy (VO)-rich vacancy clusters (2VAl + 3VO) and large voids (~0.7 nm) with less Al atoms. Those characteristics reduced the energy transfer between Mn4+ ions, thus consequently enhanced the PL and PLE intensities. Moreover, this optimal doping concentration also effectively controlled the size of nanopores (~2.18 nm); hence, it is expected to maintain the high thermal conductivity of γ-Al2O3 nanowire-phosphor. The present study, therefore, demonstrated a potential application of γ-Al2O3 nanowire-phosphor in fabricating the high-performance optoelectronic devices.

Abstract Image

利用正电子湮灭光谱分析结构缺陷及其对红色发射γ-Al2O3:Mn4+,Mg2+纳米线的影响。
本文利用正电子湮灭光谱(PAS)分析了γ-Al2O3:Mn4+,Mg2+纳米线的结构缺陷及其对红色发射的影响。纳米线是通过水热法合成的,并以葡萄糖为还原剂进行了低温后处理。分别利用 X 射线衍射 (XRD)、扫描电子显微镜 (SEM)、光致发光 (PL) 和光致发光激发 (PLE) 来确定所研究样品的结构相、形态和红色发光强度。同时进行了三项 PAS 实验,即正电子湮灭寿命(PAL)、多普勒展宽(DB)和电子动量分布(EMD),以研究合成材料中结构缺陷的形成。研究结果表明,0.06% 的掺杂浓度最适合于将 Mn4+ 和 Mg2+ 置换到两个 Al3+ 位点,并形成富含氧空位 (VO) 的空位簇(2VAl + 3VO)和含有较少铝原子的大空隙(~0.7 nm)。这些特征减少了 Mn4+ 离子之间的能量传递,从而提高了 PL 和 PLE 强度。此外,这种最佳掺杂浓度还有效地控制了纳米孔的大小(约 2.18 nm),因此有望保持γ-Al2O3 纳米线磷的高热导率。因此,本研究证明了γ-Al2O3 纳米线磷酸盐在制造高性能光电器件方面的潜在应用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Luminescence
Luminescence 生物-生化与分子生物学
CiteScore
5.10
自引率
13.80%
发文量
248
审稿时长
3.5 months
期刊介绍: Luminescence provides a forum for the publication of original scientific papers, short communications, technical notes and reviews on fundamental and applied aspects of all forms of luminescence, including bioluminescence, chemiluminescence, electrochemiluminescence, sonoluminescence, triboluminescence, fluorescence, time-resolved fluorescence and phosphorescence. Luminescence publishes papers on assays and analytical methods, instrumentation, mechanistic and synthetic studies, basic biology and chemistry. Luminescence also publishes details of forthcoming meetings, information on new products, and book reviews. A special feature of the Journal is surveys of the recent literature on selected topics in luminescence.
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