用于LED应用的(Sm0.95 Ce0.05)2O3纳米颗粒的光致发光研究

M. M. Antoinette, S. Israel, J. Berchmans, A. J. Amali
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引用次数: 0

摘要

纳米荧光粉是当今研究的一个热点领域,由于纳米颗粒各自的体积具有令人难以置信的独特性质。稀土掺杂倍半氧化物因其具有较高的化学稳定性和热稳定性、强的紫外吸收性以及在固体照明、激光等领域的广泛应用而受到广泛关注。本文采用燃烧法制备了(Sm0.95 Ce0.05)2O3纳米晶粉体。采用粉末x射线衍射对合成样品进行了结构表征,结果证实合成的纳米颗粒具有立方相和Ia3¯空间群的纳米晶结构。晶体结构和粒子形状对光致发光性能有很大的影响。采用扫描电子显微镜(SEM)和透射电子显微镜(TEM)对颗粒的表面形貌和大小进行了检测。SEM显微图显示,合成的颗粒呈球形。TEM结果证实,所形成的颗粒呈球形,为纳米级。具有球形形态的荧光粉必将提高材料的光致发光性能。因此合成的样品具有良好的发光特性。利用紫外-可见(UV-Vis)数据分析和光致发光(PL)研究了样品的光学性质。得到的吸收峰分别位于364nm、376 nm、405 nm、464 nm和476nm处,分别对应6h55 /2→4D3/2、6h55 /2→4D1/2、6h55 /2→6F7/2、6h55 /2→4I13/2和6h55 /2→4I11/2跃迁。在激发下,这些粒子在605 nm处表现出较强的发射,对应于4G5/2→6H7/2跃迁;在563 nm和647nm处表现出较强的发射,对应于4G5/2→6H5/2和4G5/2→6H5/2跃迁,表明其为橙红色发光荧光粉。这种新型纳米荧光粉可以为白光发光二极管(wled)的发展提供新的可能性,这种发光二极管可以被近紫外芯片激发,也可以用于固态照明。纳米荧光粉是当今研究的一个热点领域,由于纳米颗粒各自的体积具有令人难以置信的独特性质。稀土掺杂倍半氧化物因其具有较高的化学稳定性和热稳定性、强的紫外吸收性以及在固体照明、激光等领域的广泛应用而受到广泛关注。本文采用燃烧法制备了(Sm0.95 Ce0.05)2O3纳米晶粉体。采用粉末x射线衍射对合成样品进行了结构表征,结果证实合成的纳米颗粒具有立方相和Ia3¯空间群的纳米晶结构。晶体结构和粒子形状对光致发光性能有很大的影响。采用扫描电子显微镜(SEM)和透射电子显微镜(TEM)对颗粒的表面形貌和大小进行了检测。扫描电镜显示…
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Photoluminescence study of (Sm0.95 Ce0.05)2O3 nanoparticles for LED applications
Nanophosphors are a blazing area which has gained momentum in the present day research due to the fabulous unique properties of nanoparticles from their respective bulk. The rare earth doped sesquioxides have received considerable attention due to its unique properties like high chemical and thermal stabilities, intense UV absorption and also its use in solid state lightings, LASERS and so on. Here, we have synthesized (Sm0.95 Ce0.05)2O3 nanocrystalline powder using combustion method. Powder X-ray diffraction was used to study the structural characterization of the synthesized sample and the result confirmed that the synthesized nanoparticles had a nanocrystalline structure with a cubic phase and Ia3¯ space group. The crystal structure and the shape of the particles have a tremendous effect on the photoluminescent properties. The surface morphology and the size of the particles were examined using scanning electron microscopy (SEM) and transmission electron microscopy (TEM). The SEM micrographs showed that t he synthesized particles appear to be spherical. The TEM results confirmed that the particles formed were spherical and in nano regime. Phosphors with spherical morphology will surely enhance the photoluminescent properties of the materials. Hence the synthesized sample will have good luminescent characteristics. The optical properties of the sample were studied using ultraviolet –visible (UV-Vis) data analysis and photoluminescence (PL) studies. The absorption peaks obtained are at 364nm, 376, 405, 464 nm and 476nm which correspond to 6H5/2 → 4D3/2, 6H5/2 → 4D1/2, 6H5/2 → 6F7/2, 6H5/2 → 4I13/2 and 6H5/2 → 4I11/2 transitions respectively. On excitation, these particles showed a strong emission at 605 nm which corresponds to 4G5/2 → 6H7/2 transition and other emissions at 563 nm and 647nm correspond to 4G5/2 → 6H5/2 and 4G5/2 → 6H5/2 transitions revealing that it is an orange-red emissive phosphor. This novel nanophosphor can offer new possibilities for the development of white light-emitting diodes (WLEDs) which can be excited by the near-UV chips and also in solid state lightings.Nanophosphors are a blazing area which has gained momentum in the present day research due to the fabulous unique properties of nanoparticles from their respective bulk. The rare earth doped sesquioxides have received considerable attention due to its unique properties like high chemical and thermal stabilities, intense UV absorption and also its use in solid state lightings, LASERS and so on. Here, we have synthesized (Sm0.95 Ce0.05)2O3 nanocrystalline powder using combustion method. Powder X-ray diffraction was used to study the structural characterization of the synthesized sample and the result confirmed that the synthesized nanoparticles had a nanocrystalline structure with a cubic phase and Ia3¯ space group. The crystal structure and the shape of the particles have a tremendous effect on the photoluminescent properties. The surface morphology and the size of the particles were examined using scanning electron microscopy (SEM) and transmission electron microscopy (TEM). The SEM micrographs showed tha...
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