A novel strategy for selective removal and rapid collection of triclosan from aquatic environment using magnetic molecularly imprinted nano-polymers.

Abstract Triclosan (TCS) is a kind of chronic toxicity to aquatic organisms. Due to its highly effective antimicrobial, TCS has been widely applied in personal−care products, which naturally poses a potential risk to the ecological system and human health since its release into water−ecological environment. Therefore, it urgently demands a selective, easily separated, recyclable, and low−cost adsorbent to remove the residues of TCS from aquatic environments. In this study, a novel magnetic molecularly imprinted nano−polymers (TMIPs) were prepared for selective adsorption and convenient collection of TCS in aquatic samples, based on a core−shell technique using TCS as template molecule and SiO2−coated Fe3O4 nanoparticles as the support substrate. The functional groups, particle size, morphology and magnetic property of TMIPs were characterized by Fourier−transform infrared spectroscopy, scanning electron microscope, transmission electron microscopy and vibrating sample magnetometer, respectively. The obtained TMIPs possessed excellent adsorption capacity (Qe = 53.12 mg g−1), speedy adsorption equilibrium time (2 min) and high selectivity (k’ = 6.321) for TCS. Moreover, the pH−tolerance and stability tests manifested that the adsorption capacity of TMIPs for TCS was acid−resistance and could retain 94.2% of the maximum Qe after 5 times removal−regeneration cycles. The feature of magnetically susceptibility can simplify the procedures of sample handling in TCS determination, because the TMIPs of TCS are easy to be recycled from aquatic samples. As an application demonstration, the toxicity test in microalgae confirmed that a tiny amount of TMIPs could significantly eliminate the toxic effect of TCS on Chlamydomonas reinhardtii via the efficient binding with TCS.