Enhanced photocatalytic activity of ZnO thin films with labyrinth-like architecture by thermal-shock-fluorination on novel zinc-coated copper substrate for sustainable applications

IF 1.8 4区 材料科学 Q2 MATERIALS SCIENCE, CERAMICS Journal of the Australian Ceramic Society Pub Date : 2023-12-05 DOI:10.1007/s41779-023-00972-x
Tan Dat Ho, Tien Khoa Le, Trinh Anh Minh Nguyen, Dieu Khanh An Nguyen, Chau Ngoc Hoang, Huu Khanh Hung Nguyen, Thi Kieu Xuan Huynh
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Abstract

While ZnO nanoparticles have been regarded as promising photocatalysts for addressing organic pollutants in water, they still pose several challenges, such as low activity under UV–visible illumination and difficulties in the recovery of catalytic powder. To overcome these limitations, in this work, thin films composed of surface-modified ZnO nanoparticles for the first time with labyrinth-like architecture were successfully immobilized on a unique zinc-electroplated copper substrate by using a simple sol–gel spin coating technique followed by our thermal-shock-fluorination method (at 400, 500 or 600 °C). The degradation of several organic dyes, including cationic and anionic dyes, under UVA light and visible light irradiation was used to assess their photocatalytic activity. The results demonstrate that the synergistic effect of fluorination and thermal shock greatly enhanced the photocatalytic performance of our samples. Specifically, this treatment significantly altered the surface texture of ZnO thin films by creating labyrinth-like architecture with surface chain walls and oxygen vacancies, resulting in enhanced activity. Furthermore, by electro-coating Cu plates with oxidized zinc layers, we successfully obtained a thermally and mechanically robust substrate that effectively promotes the attachment of ZnO nanoparticles, improving the applicability of our photocatalysts under harsh conditions as well as their recovery and reuse.

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热冲击氟化法增强迷宫状ZnO薄膜在新型镀锌铜衬底上的光催化活性
虽然ZnO纳米粒子被认为是解决水中有机污染物的有前途的光催化剂,但它们仍然存在一些挑战,如在紫外可见光照下活性低以及催化粉末的回收困难。为了克服这些限制,在这项工作中,首次使用简单的溶胶-凝胶自旋涂层技术和我们的热冲击氟化方法(400、500或600°C),成功地将具有迷宫状结构的表面修饰ZnO纳米颗粒组成的薄膜固定在独特的锌电镀铜衬底上。采用UVA光和可见光对阳离子和阴离子染料的光催化活性进行了研究。结果表明,氟化和热冲击的协同作用大大提高了样品的光催化性能。具体来说,这种处理通过产生具有表面链壁和氧空位的迷宫状结构显著改变了ZnO薄膜的表面结构,从而增强了活性。此外,通过在Cu板上电镀氧化锌层,我们成功地获得了一种热强度和机械强度都很强的衬底,有效地促进了ZnO纳米颗粒的附着,提高了我们的光催化剂在恶劣条件下的适用性以及它们的回收和再利用。图形抽象
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来源期刊
Journal of the Australian Ceramic Society
Journal of the Australian Ceramic Society Materials Science-Materials Chemistry
CiteScore
3.70
自引率
5.30%
发文量
123
期刊介绍: Publishes high quality research and technical papers in all areas of ceramic and related materials Spans the broad and growing fields of ceramic technology, material science and bioceramics Chronicles new advances in ceramic materials, manufacturing processes and applications Journal of the Australian Ceramic Society since 1965 Professional language editing service is available through our affiliates Nature Research Editing Service and American Journal Experts at the author''s cost and does not guarantee that the manuscript will be reviewed or accepted
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