Enhanced the Physical Properties of Thin Films by Doping Zinc Oxide with Tin Prepared by the Pyrolysis Technique

Journal of Kufa - Physics Pub Date : 2023-06-04 DOI:10.31257/2018/jkp/2023/v15.i01.10964

Maher Abdullah

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Abstract

Spray pyrolysis was used in this work to create un-doped ZnO and Sn-doped films with varying mass fractions (2, 4, 6, and 8wt.%) of doping on a glass substrate. The effect of Sn doping on the optical and structural characteristics of the produced thin films was investigated. All of the films were polycrystalline and possessed a structure of hexagonal wurtzite with a preference for orientation along the (002) plane, according to XRD investigations. The peak intensity (002) for 6 wt% is higher than all of the chosen doping ratios. Except for the 8% that was (21) nm, the grain size (D) increased from (22-26) nm as the percentage of Sn doping increased. In order to evaluate the optical characteristics, the absorption and transmittance spectra were recorded in different wavelength ranges of 380-900 nm. This shows that, compared to the un-doped film, the absorbance decreases as the amount of doped tin increases. When the doping ratio ranged from (0 - 8) wt%, the optical energy gap was (3.23-3.59) eV. The transmittance increases with the percentage of Sn doping, reaching its maximum value (72%) at (8%) doping.

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用热解法制备的氧化锌掺杂锡，提高了薄膜的物理性能

在这项工作中，使用喷雾热解在玻璃衬底上制备了不同质量分数(2、4、6和8wt.%)掺杂ZnO和sn的未掺杂薄膜。研究了锡掺杂对薄膜光学特性和结构特性的影响。根据XRD的研究，所有的薄膜都是多晶的，具有六角形纤锌矿的结构，并倾向于沿(002)平面取向。6 wt%的峰值强度(002)高于所有选择的掺杂比。随着Sn掺杂比例的增加，除(21)nm占8%外，晶粒尺寸(D)从(22)nm增加到(26)nm。为了评价其光学特性，记录了在380 ~ 900 nm不同波长范围内的吸收光谱和透射光谱。这表明，与未掺杂薄膜相比，吸光度随掺杂锡量的增加而降低。当掺杂比为(0 ~ 8)wt%时，光能隙为(3.23 ~ 3.59)eV。透过率随锡掺杂率的增加而增加，在掺杂率为8%时达到最大值(72%)。

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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Journal of Kufa - Physics

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