Visible-light-driven 2D π-conjugated polyimide/ZnO efficiently removes tetracycline

Abstract

Heterojunction organic-inorganic composites are promising for wastewater treatment due to their excellent physical and chemical properties. ZnO was immobilized on the PI surface using the hydrothermal technique to prepare PI/ZnO n-n heterojunctions with outstanding visible photocatalytic properties. The photocatalytic performance of different ratios of PI/ZnO composites was significantly improved in comparison to pure PI and ZnO, among which 40% PI/ZnO showed the most outstanding results. The 40% PI/ZnO can adsorption remove around 40% of tetracycline (TC) in 20 min in entirely shaded conditions and can attain up to 90% of the TC removal efficiency in 40 min under visible light exposure. The formation of a PI/ZnO heterojunction enhances the efficiency of charge separation and reduces the recombination of photogenerated electron-hole pairs, resulting in improved photocatalytic performance. Meanwhile, the 40% PI/ZnO composites showed a substantial increase in specific surface area (205.22 m2/g) compared to pure PI and ZnO, which was 103 and 25 times that of PI and ZnO, respectively. The increase in surface area provided a larger number of adsorption sites, thereby increasing the contact area between the pollutants and the photocatalysts, which led to a significant improvement of the PI/ZnO composites in the adsorption and photocatalytic properties. In this study, the heterojunction was formed by the composite of conjugated polymer and metal oxide, so that the composites could remove the organic matter more efficiently by adsorption and then photocatalysis, which will provide some ideas for the development of more efficient conjugated polymer materials.