Abstract
In the past few years there has been growing concern about human exposure to endocrine disrupting chemicals. This kind of pollutants can bioaccumulate in aquatic organisms and lead to serious health problems, especially affecting child development. Many efforts have been devoted to achieving the efficient removal of such refractory organics. In this regard, a novel catalyst based on the combination of α-FeOOH and MnO2@MnCO3 catalysts has been developed by up-scalable techniques from cheap precursors and tested in the photo-Fenton-like degradation of an endocrine disruptor. Almost total degradation of 17α-ethynylestradiol hormone was achieved after only 2 min of simulated solar irradiation at neutral pH. The outstanding performance of FeOOH@MnO2@MnCO3 microspheres was mainly attributed to a larger generation of hydroxyl radicals, which are the primary mediators of the total oxidation for this hormone. This work contributes to the development of more cost-effective systems for the rapid and efficient removal of persistent organic pollutants present in sewage plant effluents under direct solar light.
Highlights
Industrial wastewater effluents from pharmaceuticals, agriculture, cosmetics, and personal care products usually contain a high amount of refractory organic pollutants.[1]
A novel catalyst based on the combination of a-FeOOH and MnO2@MnCO3 catalysts has been developed by up-scalable techniques from cheap precursors and tested in the photo-Fenton-like degradation of an endocrine disruptor
This work contributes to the development of more cost-effective systems for the rapid and efficient removal of persistent organic pollutants present in sewage plant effluents under direct solar light
Summary
Industrial wastewater effluents from pharmaceuticals, agriculture, cosmetics, and personal care products usually contain a high amount of refractory organic pollutants.[1]. It is worth highlighting that the high pressure lamp used in this work (maximum intensity at 365 nm) cannot lead to the photodegradation of the synthetic hormone.[36] When the photo-Fenton tests were performed in the presence of MnO2@MnCO3 and Fe/MnO2@MnCO3 catalysts and 0.1 M H2O2, the degradation rates were noticeably enhanced a er only two minutes of light irradiation.
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