优化镍锌铁氧体薄膜的可见光发光性能

A M Faramawy, H M El-Sayed
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摘要

采用喷雾法制备了不同厚度的镍锌铁氧体薄膜,旨在研究富氧环境中的退火效应与薄膜的结构、光学特性和光致发光之间的关系。利用里特维尔德细化法进行的 X 射线衍射(XRD)分析表明,所有制备的样品都具有单一的尖晶石相结构。同样,傅立叶变换红外光谱(FTIR)也证实了镍锌铁氧体的相形成,因为它出现了与四面体和八面体位点相关的两个特征吸收带。对于退火的镍锌铁氧体薄膜样品,原子力显微镜(AFM)表面形貌显示其表面具有纳米级高度的针状结构,而对于未退火的样品,则存在覆盖广泛区域的丘陵和山谷。从紫外-可见透射光谱中估算出了不同的电子跃迁。在紫外辐射的激发下,在可见光范围内观察到了很强的光致发光(PL)强度。光致发光信号的强度在薄膜厚度为 750 纳米时最强,然后随着厚度的增加而减弱。这可以通过根据所研究样品的透射光谱提出的能级结构来解释。强烈的聚光强度使样品成为紫外线辐射的直接光学探测器。
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Optimization of visible photoluminescence emission from Ni-Zn ferrite thin films
Ni-Zn ferrite films with different thicknesses were prepared by the spray method, aiming to study the relationship between the annealing effect in an oxygen rich environment and the structural, optical properties and photoluminescence emission. X-ray diffraction (XRD) analysis used with Rietveld refinement showed that all prepared samples had a single spinel phase structure. Likewise, the Fourier transform infrared (FTIR) spectra confirmed the phase formation of Ni-Zn ferrites by appearing in both of the two characteristic absorption bands which are related to the tetrahedral and octahedral sites. For annealed thin film samples of Ni-Zn ferrite, the atomic force microscope (AFM) surface morphology exhibits pinning structure on the surface in nanoscale height, whereas for un-annealed samples, there are hills and valleys cover a broad region. The different electronic transitions were estimated from the UV-visible transmission spectrum. Strong photoluminescence (PL) intensity in the visible range was observed under the excitation of UV radiation. The intensity of the PL signal was strongest at a film thickness of 750 nm then decreased for higher thicknesses. This could be interpreted by using proposed energy level structures based on the transmission spectrum of the investigated samples. The strong PL intensity introduces the samples as a direct optical detector for UV radiation.
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