Litcius/Paper detail

Preferential Destruction of Micropollutants in Water through a Self-Purification Process with Dissolved Organic Carbon Polar Complexation

Yumeng Wang, Peng Zhang, Lai Lyu, Tong Li, Chun Hu

2022Environmental Science & Technology46 citationsDOI

Abstract

Removing micropollutants in real water is a scientific challenge due to primary dissolved organic carbon (DOC) and high energy consumption of current technologies. Herein, we develop a self-purification process for the preferential destruction of various micropollutants in municipal wastewater, raw drinking water, and ultrapure water with humic acid (HA) driven by the surface microelectronic field of Fe0-FeyCz/Fex-GZIF-8-rGO without any additional input. It was verified that a strongly polar complex consisting of an electron-rich HA/DOC area and an electron-poor micropollutant area was formed between HA/DOC and micropollutants, promoting more electrons of micropollutants in the adsorbed complex to delocalizing to electron-rich Fe species area and be trapped by O2, which resulted in their surface cleavage and hydrolyzation preferentially. The higher micropollutant degradation efficiency observed in real wastewaters was due to the greater complex polarity of DOC. Moreover, the electron transfer process ensured the stability of the surface microelectronic field and continuous water purification. Our findings provide a new insight into low-energy combined-micropollution water treatment.

Topics & Concepts

Ultrapure waterChemistryDissolved organic carbonAdsorptionEnvironmental chemistrySurface waterPortable water purificationWater treatmentHumic acidWastewaterCarbon fibersHydrolysisMicroelectronicsEnvironmental scienceEnvironmental engineeringOrganic chemistryMaterials scienceNanotechnologyComposite numberFertilizerComposite materialWater Treatment and DisinfectionAdvanced oxidation water treatmentEnvironmental remediation with nanomaterials