Optical and Color Modification in Polycarbonate/ZnS-NiO Nanocomposite Films Due to Laser Exposure

Pub Date : 2023-11-29 DOI:10.1007/s10946-023-10168-0

Samir A. Nouh, Eman M. Mahrous, Faten AlSomali, Rehab Yajzey, Kaoutar Benthami, Ghada Abbady

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Abstract

We fabricate a nanocomposite (NC) of polycarbonate (PC), Zinc sulfide (ZnS) and Nickel oxide (NiO) nanoparticle by the sol-gel and ex-situ casting processes. We trust that this study is novel in the area of the impact of laser on such NC. The Rietveld alteration of XRD records indicates that both the prepared ZnS and NiO have a nano-nature of an average particle size of 4 and 18 nm. Samples of the PC/ZnS-NiO NC films are exposed to numerous laser fluences (4 – 30 J/cm²). We investigate the resulting outcome of the laser exposure on the optical behavior of the NC films, using ultraviolet spectroscopy (UVs). Upon raising the fluence up to 30 J/cm², both the indirect and direct band gaps reduce. The Urbach energy exhibits a reverse trend. This can be attributable to the domination of chain crosslinks. Also, we detect the nature of microelectronic transitions, using the optical dielectric loss εʺ and find that the PC/ZnS-NiO NC films possess direct allowed transitions. Also, we study the laser induced modifications in the optical conductivity and dielectric parameters. Moreover, the optical coloration changes between the exposed samples and pristine are estimated. The pristine NC sample is uncolored. It shows significant color alterations upon the laser exposure. The induced improvements in the optical characters suggest that the laser is a convenient mean that permits the use of PC/ZnS-NiO NC in the optoelectronic devices.

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激光曝光对聚碳酸酯/ZnS-NiO纳米复合薄膜的光学和颜色改性

采用溶胶凝胶法和非原位铸造法制备了聚碳酸酯(PC)、硫化锌(ZnS)和氧化镍(NiO)纳米颗粒的纳米复合材料(NC)。我们相信这项研究在激光对这种数控加工的影响方面是新颖的。XRD记录的Rietveld蚀变表明，制备的ZnS和NiO均具有纳米性质，平均粒径分别为4 nm和18 nm。PC/ZnS-NiO NC膜样品暴露于多种激光影响下(4 - 30 J/cm2)。我们利用紫外光谱(UVs)研究了激光照射对NC薄膜光学行为的影响。当通量提高到30 J/cm2时，间接带隙和直接带隙都减小了。厄巴赫能量呈现相反的趋势。这可以归因于链交联的主导地位。此外，我们利用光学介电损耗ε ^ 7检测了微电子跃迁的性质，发现PC/ZnS-NiO NC薄膜具有直接允许的跃迁。此外，我们还研究了激光引起的光学电导率和介电参数的变化。此外，估计了曝光样品与原始样品之间的光学颜色变化。原始NC样品是无色的。在激光照射下显示出明显的颜色变化。光学特性的改善表明，该激光器是一种方便的手段，允许在光电器件中使用PC/ZnS-NiO NC。

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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