1. Photoelectrocatalytic modification of nanofiltration membranes with SrF2/Ti3C2Tx to simultaneously enhance heavy metal ions rejection and permeability.
- Author
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Zheng, Huiqi, Meng, Xiaorong, Wu, Jiao, Liu, Danghao, and Huo, Shanshan
- Subjects
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HEAVY metals , *METAL ions , *PERVAPORATION , *HEAVY metal toxicology , *COMPOSITE membranes (Chemistry) , *NANOFILTRATION , *PERMEABILITY - Abstract
Heavy metal pollution can significantly harm water systems and human health. Combining photoelectrocatalytic (PEC) and nanofiltration (NF) membrane separation technologies can effectively remove heavy metal ions from wastewater. In this study, a water bath method was used to form SrF 2 /Ti 3 C 2 T x (ST) nanoparticles on the surface of polyvinylidene fluoride (PVDF) membranes and an additional polyamide (PA) functional layer was formed at the interface by crosslinking. ST@PA composite NF membranes (STPP) with good photocatalytic performance were obtained. The separation and catalytic properties of the STPP membranes were controlled by the ST content, which modifies the surface structure and properties of the membranes. The membrane with optimal ST crosslinking exhibited a water contact angle of 50.8°, pure water flux of 24.6 L·m−2·h−1·bar−1, and rejection rates of Mn2+, Ni2+, Cu2+, and Zn2+ of 98.8%, 95.3%, 95.7%, and 97.3%, respectively, under PEC-assisted separation with visible light illumination from a Xe lamp (300 W) and an applied voltage (2 V). The STPP membranes showed improved rejection rates of heavy metal ions under PEC-assisted operation. The mechanism for the improved membrane performance under PEC conditions was preliminarily clarified considering the relationship between the photocatalytic and filtration properties of STPP membranes along with the influence of light irradiation and an external voltage on the heavy metal ions. The generation of electrons, holes, superoxide radicals, and hydroxyl radicals during membrane operation enhances the rejection rates of heavy metal ions. Based on these results, STPP membranes are considered a promising technology for industrial applications in heavy metal removal. [Display omitted] • Photoelectrocatalytic (PEC) SrF 2 /Ti 3 C 2 T x synergistically removes heavy metals. • Under PEC conditions internal/external electric fields promote carrier separation. • PEC-assisted membranes exhibit high water flux and efficient heavy metals removal. • The Mn2+ removal mechanism of the membranes in aqueous solutions is proposed. [ABSTRACT FROM AUTHOR]
- Published
- 2023
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