This article provides a systematic review of the research progress in self-cleaning technologies for glass surfaces. It analyzes and summarizes the applicability of self-cleaning effects induced by special properties such as photocatalysis, superhydrophobicity, superhydrophilicity, and omniphobicity on glass surfaces.
Self-cleaning glass surfaces have emerged as a focal point in the field of materials science due to their potential to reduce the accumulation of pollutants, enhance transparency, and improve durability.
The application of self-cleaning glass surfaces is summarized in Table 1. Superhydrophobicity and superamphiphobicity rely on their unique wetting characteristics to prevent the adhesion of water-based and oil-based pollutants, significantly enhancing the self-cleaning performance of the surface.
In addition, water is the most common liquid substance in nature, and it provides good self-cleaning conditions for both hydrophobic and hydrophilic surfaces of PV glass. Therefore, the self-cleaning abilities of hydrophilic or hydrophobic surfaces were greatly increased by increasing the liquid droplet volume and the surface tension. 4. Conclusion
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