Improvement mechanism of NO photocatalytic degradation performance of self-cleaning synergistic photocatalytic coating under high humidity

Photocatalytic coating has been widely studied as a promising material to remove air pollutants. However, the effectiveness and long-term effect of photocatalysis in high relative humidity environment is still the main challenge in this field. In this study, a fluorinated WO3-TiO2 nanorods/SiO2 epox...

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Bibliographic Details
Published in:Journal of hazardous materials 2021-09, Vol.418, p.126337-126337, Article 126337
Main Authors: Liu, Guanyu, Xia, Huiyun, Zhang, Wenshuo, Song, Lifang, Chen, Qiwei, Niu, Yanhui
Format: Article
Language:English
Subjects:
High relative humidity
NO degradation
Photocatalytic
Self-cleaning
Superamphiphobic
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Summary:Photocatalytic coating has been widely studied as a promising material to remove air pollutants. However, the effectiveness and long-term effect of photocatalysis in high relative humidity environment is still the main challenge in this field. In this study, a fluorinated WO3-TiO2 nanorods/SiO2 epoxy photocatalytic superamphiphobic coating (FTSE coating) was prepared using a simple spraying method. The micromorphology and chemical composition of FTSE coating was characterized by SEM, EDS, FT-IR, XPS and TGA techniques. The advanced contact angle and hysteresis angle test show that the FTSE coating had excellent superamphiphobicity. The mechanical abrasions, corrosion resistance and UV aging tests show that the FTSE coating exhibited reasonable durability. Besides, the NO degradation efficiency of hydrophilic and superamphiphobic coatings with contact angles of 20.19°, 87.74°, 162.93° and 164.47° was tested in different humidity environment. The results showed that the superamphiphobic coating exhibited more superior photocatalytic degradation efficiency (84.02%) than the hydrophilic coating (51.38%) at a high relative humidity (RH=98%). Finally, FTSE coating exhibited prominent photocatalytic stability and the synergistic effect of photocatalysis and self-cleaning. After 30 d outdoor weathering test, the NO degradation efficiency decreased by 13.07% and recovered to the original level after flushing. The improvement mechanism of NO degradation performance was proposed based on the characteristics of superamphiphobic surface. [Display omitted] •A WO3-TiO2 nanorods/SiO2 photocatalytic superamphiphobic coating.•The reasonable robustness and excellent superamphiphobicity.•The prominent degradation performance in high relative humidity environment.•A mechanism of improving the NO degradation efficiency.
ISSN:0304-3894
1873-3336
DOI:10.1016/j.jhazmat.2021.126337