Abstract

The removal of estrogenic chemicals during wastewater reclamation has been a great concern. Current advanced treatment processes are inefficient for the removal of estrogenic chemicals from secondary effluents of municipal wastewater treatment plants (WWTPs) due to the coexistence of other pollutants with less environmental significance which are also removed simultaneously. The search for highly selective and low-cost removal methods is warranted. Therefore, surface-molecular-imprinted polymer-modified TiO(2) nanotube (S-MIP-TiO(2) NT) photocatalysts were fabricated, characterized, and tested for the removal of estrogenic pollutants from wastewater in this study for the first time. Scanning electron microscopy and Fourier-transform infrared spectroscopy studies showed that the TiO(2) NTs (with an average diameter of 60 nm) were successfully imprinted with functional groups (i.e., carboxyl). The adsorption selectivity and photocatalytic activity of the S-MIP-TiO(2) NTs towards template compound (17β-estradiol, E2) were improved, compared with neat TiO(2) NTs. Interestingly, S-MIP-TiO(2) NTs exhibited higher adsorption intensity and photocatalytic selectivity at low concentrations (from 10 ng/L to 100 μg/L, as normal estrogenic chemical concentrations in secondary effluents) of E2 than that at high concentrations (from 10 to 1,000 mg/L). It was also found that some representative estrogenic chemicals and estrogenic activity could be selectively and rapidly removed from secondary effluents of municipal wastewater treatment plants using S-MIP-TiO(2) NTs as photocatalysts. In addition, S-MIP-TiO(2) NT photocatalysts exhibited excellent regeneration characteristics. Photocatalytic treatment using S-MIP-TiO(2) NTs could be a promising approach for the effective removal of estrogenic chemicals from secondary effluents of municipal WWTPs.

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