Investigation of optical and dispersion parameters poly vinyl alcohol doped Safranin O dye (PVA/SO) thin film

IF 0.9 Q4 MATERIALS SCIENCE, MULTIDISCIPLINARY
F. Bahrani, I. K. Jasim, A. Q. Abdullah
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引用次数: 0

Abstract

Optical characteristics of polyvinyl alcohol/Safranin O dye (PVA/SO) thin films prepared by casting technique have been examined. Compositions and crystalline features of PVA/SO thin films are investigated with X-Ray Diffraction analyses. Ultraviolet–Visible spectroscopy has been utilized to measure the absorption and transmission optical properties of the thin films through the wavelength range 300-900 nm. Two regions can be recognized in absorption coefficient related to the direct band gaps, which are about 3.93 eV of the fundamental energy gap and 2.11eV of the onset gap. The theoretical WempleDiDomenico model has been performed to quantify the static refractive index n and the dispersion energy in addition to the oscillation energy (Eo). The results reveal that the data of the refractive index dispersion in this model obeyed the single oscillator, which is used to deduce the dispersion and the high frequency dielectric constant. In the examined wavelength range, it has been investigated the complex dielectric constant of PVA/SO dye thin films. The ratio of the carrier concentration to the effective mass has been estimated. Oscillation energy values have been examined in this study by describing the expression Eo ≈ Eg and checking the Wemple-DiDomenico model. PVA/SO thin films have interesting physical properties for solar cell applications.
聚乙烯醇掺杂 Safranin O 染料(PVA/SO)薄膜的光学和分散参数研究
研究了通过浇铸技术制备的聚乙烯醇/Safranin O 染料(PVA/SO)薄膜的光学特性。通过 X 射线衍射分析研究了 PVA/SO 薄膜的组成和结晶特征。紫外-可见光谱法用于测量薄膜在 300-900 纳米波长范围内的吸收和透射光学特性。在吸收系数中可以发现两个与直接带隙有关的区域,分别是约 3.93eV 的基本能隙和 2.11eV 的起始能隙。我们采用 WempleDiDomenico 理论模型来量化静态折射率 n 和色散能以及振荡能 (Eo)。结果表明,该模型中的折射率色散数据服从单振荡器,可用于推导色散和高频介电常数。在所研究的波长范围内,研究了 PVA/SO 染料薄膜的复介电常数。还估算了载流子浓度与有效质量之比。本研究通过描述表达式 Eo ≈ Eg 和检查 Wemple-DiDomenico 模型,检查了振荡能值。PVA/SO 薄膜在太阳能电池应用方面具有有趣的物理特性。
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
Journal of Optoelectronic and Biomedical Materials
Journal of Optoelectronic and Biomedical Materials MATERIALS SCIENCE, MULTIDISCIPLINARY-
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