Self-Cleaning Materials: Mechanisms, Performance and Environmental Perspectives of Photocatalytic and Superhydrophobic Surfaces

Haneen Abass Alrubaie; Abd; I. K; Nada K Hussein; Raneen Salam

doi:10.30574/ijsra.2025.16.2.2393

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Self-Cleaning Materials: Mechanisms, Performance and Environmental Perspectives of Photocatalytic and Superhydrophobic Surfaces

Haneen Abass Alrubaie ^{1, *}, Abd, I. K ², Nada K Hussein ³ and Raneen Salam¹

1 Al-Nahrain University, Al-Nahrain Renewable Energy Research Center, Jadriya, Baghdad, Iraq.

2 Al-Karkh University of Science, Baghdad, Iraq.

3 University of Baghdad, Jadriya، Baghdad, Iraq.

Review Article

International Journal of Science and Research Archive, 2025, 16(02), 855-862

Article DOI: 10.30574/ijsra.2025.16.2.2393

DOI url: https://doi.org/10.30574/ijsra.2025.16.2.2393

Publication history

Received on 06 July 2025; revised on 14 August 2025; accepted on 16 August 2025

Abstract

Self-cleaning materials have gained significant attention due to their potential to reduce maintenance costs, enhance durability, and promote environmental sustainability in a wide range of applications, including glass, textiles, solar panels, and medical devices. This review explores the two primary self-cleaning mechanisms: photocatalysis and superhydrophilicity. Photocatalytic materials, such as TiO₂ and ZnO, harness light energy to degrade organic pollutants, while superhydrophobic surfaces rely on extreme water repellency to remove dirt and contaminants. We discuss recent advances in material design, including nano structuring, doping, and composite formation, which have significantly improved the performance of these materials under real-world conditions. Key challenges such as mechanical durability, light dependency, toxicity of nanoparticles, and scalability are critically examined. Additionally, emerging eco-friendly strategies—like biopolymer-based coatings and safe-by-design nanostructures—are highlighted as sustainable alternatives. The review concludes with insights into future directions, including multifunctional coatings and smart integration technologies.

Keywords

Self-cleaning materials; Photocatalysis; superhydrophilicity; Titanium dioxide (TiO₂); Zinc oxide (ZnO); Nanocoating’s; Surface modification; Environmental sustainability; Smart surfaces; Biopolymer-based coatings

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How to cite this article

Haneen Abass Alrubaie, Abd, I. K, Nada K Hussein and Raneen Salam. Self-Cleaning Materials: Mechanisms, Performance and Environmental Perspectives of Photocatalytic and Superhydrophobic Surfaces. International Journal of Science and Research Archive, 2025, 16(02), 855-862. Article DOI: https://doi.org/10.30574/ijsra.2025.16.2.2393.

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