氧化铈纳米颗粒薄膜的超疏水性和防污性能

IF 2 4区材料科学 Q3 MATERIALS SCIENCE, COATINGS & FILMS

Thin Solid Films Pub Date : 2025-08-11 DOI:10.1016/j.tsf.2025.140767

C.R. Katharotiya , K. Yakubov , D. Mamedov , A. Allaniyazov , S.Zh. Karazhanov

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引用次数: 0

摘要

采用共沉淀法合成了氧化铈（CeOx）粉末，并采用自旋镀膜技术将其沉积在玻璃衬底上。与裸露的玻璃基板相比，CeOx薄膜在可见光范围（~ 95%）的透射光谱基本保持不变，保持了抗反射特性。涂覆1-十八烯的CeOx薄膜表现出超疏水行为，水接触角（WCA）超过150°，滑动角（SA）为10°时具有自清洁性能。WCA值在300-500 nm之间最高。在350°C， 450°C和550°C下退火没有导致WCA的明显变化。在酸度pH为2.1 ~ 10.4范围内的润湿性研究表明，pH >； 2.1时，溶液pH和盐浓度对WCA的影响较小。超纯水和海水在1-十八烯包覆的CeOx薄膜上的接触角没有显著差异。与亲水表面相比，超疏水膜表现出卓越的自清洁能力，使水滴毫不费力地滚下，携带灰尘颗粒，有效地保持表面清洁。

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Superhydrophobic and anti-soiling properties of thin films from CeOx nanoparticles

Cerium oxide (CeO_x) powders were synthesized via the co-precipitation method and deposited onto glass substrates using spin-coating. The transmittance spectra of the CeO_x films in the visible range (∼95 %) remained largely unchanged compared to the bare glass substrate, maintaining anti-reflective properties. The CeO_x films coated with 1-octadecene exhibited superhydrophobic behavior, achieving a water contact angle (WCA) exceeding 150° and self-cleaning properties at a sliding angle (SA) < 10°. The highest WCA values were observed for film thicknesses between 300–500 nm. Annealing at 350 °C, 450 °C, and 550 °C did not result in a noticeable change in WCA. Wettability studies in the acidity pH range of 2.1–10.4 indicated that solution pH and salt concentration had only a minor influence on WCA for pH > 2.1. Contact angles of ultrapure water and sea water on 1-octadecene-coated CeO_x films do not significantly differ. Compared to hydrophilic surfaces, the superhydrophobic films demonstrated remarkable self-cleaning capability, allowing water droplets to roll off effortlessly, carrying dust particles and effectively maintaining a clean surface.

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来源期刊

Thin Solid Films 工程技术-材料科学：膜

CiteScore

4.00

自引率

4.80%

发文量

381

审稿时长

7.5 months

期刊介绍： Thin Solid Films is an international journal which serves scientists and engineers working in the fields of thin-film synthesis, characterization, and applications. The field of thin films, which can be defined as the confluence of materials science, surface science, and applied physics, has become an identifiable unified discipline of scientific endeavor.