Advanced UV Shielding for Cork: A comparative study of ZnO and TiO2 films through colorimetric and FTIR techniques

IF 6.3 2区材料科学 Q2 CHEMISTRY, PHYSICAL

Applied Surface Science Pub Date : 2024-12-10 DOI:10.1016/j.apsusc.2024.162038

B. Tiss, D. Martínez-Martínez, C. Mansilla, L. Cunha

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Abstract

This study evaluates the potential of ZnO and TiO₂ films produced by magnetron sputtering to protect cork from the ageing effects induced by the solar radiation, particularly its UV component. This approach was validated first by exposure of cork under coated glass, and then extended to coated cork. The variation of color coordinates (L*, a*, b*) after exposure to a sun simulator lamp demonstrated that ZnO films provide superior protection compared to TiO₂ films. The TiO₂ coatings revealed to be not enough protective, exhibiting color variations (ΔC ≈ 9) even higher than the uncoated cork (ΔC ≈ 6). ZnO films showed a lower degree of color change and less UV-induced damage. (3.6 ≤ ΔC ≤ 5.0). Thus, ZnO films can effectively reduce the impact of UV radiation on cork, offering a more reliable protective solution. This study includes also the analysis of Fourrier Transform Infrared Spectra (FTIR) of the samples before and after exposure test. The exposure of the unprotected samples to the radiation causes a large reduction the of intensity of the FTIR bands, a phenomenon which is greatly reduced when cork protected by ZnO films. A correlation between color variation and intensity of FTIR spectra was established.

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本研究评估了通过磁控溅射法生产的氧化锌和二氧化钛薄膜在保护软木塞免受太阳辐射（尤其是紫外线）老化影响方面的潜力。这种方法首先在涂有涂层的玻璃下对软木塞进行照射，然后扩展到涂有涂层的软木塞上进行验证。在太阳模拟灯下曝晒后，色坐标（L*、a*、b*）的变化表明，氧化锌薄膜比二氧化钛薄膜能提供更好的保护。二氧化钛涂层的保护能力不足，其颜色变化（ΔC ≈ 9）甚至高于未涂层软木塞（ΔC ≈ 6）。氧化锌薄膜的颜色变化程度较低，紫外线引起的损害也较小。(3.6 ≤ δC ≤ 5.0）。因此，氧化锌薄膜能有效降低紫外线辐射对软木塞的影响，提供了一种更可靠的保护方案。本研究还分析了暴露测试前后样品的傅立叶变换红外光谱（FTIR）。未受保护的样品暴露在辐射下会导致傅立叶变换红外光谱带的强度大大降低，而使用氧化锌薄膜保护的软木塞则会大大降低这种现象。颜色变化与傅立叶变换红外光谱强度之间建立了相关性。

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来源期刊

Applied Surface Science 工程技术-材料科学：膜

CiteScore

12.50

自引率

7.50%

发文量

3393

审稿时长

67 days

期刊介绍： Applied Surface Science covers topics contributing to a better understanding of surfaces, interfaces, nanostructures and their applications. The journal is concerned with scientific research on the atomic and molecular level of material properties determined with specific surface analytical techniques and/or computational methods, as well as the processing of such structures.