Abiotic transformation and ecotoxicity change of sulfonamide antibiotics in environmental and water treatment processes: A critical review
Sulfonamides (SAs) are among the most widely used antibiotics to treat bacterial infections
for humans and animals. They are also used in livestock agriculture to improve growth and …
for humans and animals. They are also used in livestock agriculture to improve growth and …
Reactive high-valent iron intermediates in enhancing treatment of water by ferrate
Efforts are being made to tune the reactivity of the tetraoxy anion of iron in the+ 6 oxidation
state (FeVIO42–), commonly called ferrate, to further enhance its applications in various …
state (FeVIO42–), commonly called ferrate, to further enhance its applications in various …
Enhanced oxidation of antibiotics by ferrate mediated with natural organic matter: role of phenolic moieties
The increasing presence of antibiotics in water sources threatens public health and
ecosystems. Various treatments have been previously applied to degrade antibiotics, yet …
ecosystems. Various treatments have been previously applied to degrade antibiotics, yet …
Comparison of chemical and biological degradation of sulfonamides: Solving the mystery of sulfonamide transformation
Sulfonamides (SAs) are widespread in aquatic environments and pose serious
environmental risks. The removal efficiencies and degradation mechanisms of SAs in both …
environmental risks. The removal efficiencies and degradation mechanisms of SAs in both …
Role of ferrate (IV) and ferrate (V) in activating ferrate (VI) by calcium sulfite for enhanced oxidation of organic contaminants
Although the Fe (VI)–sulfite process has shown great potential for the rapid removal of
organic contaminants, the major active oxidants (Fe (IV)/Fe (V) versus SO4•–/• OH) involved …
organic contaminants, the major active oxidants (Fe (IV)/Fe (V) versus SO4•–/• OH) involved …
Peracetic acid–ruthenium (III) oxidation process for the degradation of micropollutants in water
This paper presents an advanced oxidation process (AOP) of peracetic acid (PAA) and
ruthenium (III)(Ru (III)) to oxidize micropollutants in water. Studies of PAA–Ru (III) oxidation …
ruthenium (III)(Ru (III)) to oxidize micropollutants in water. Studies of PAA–Ru (III) oxidation …
UVA-LED-assisted activation of the ferrate (VI) process for enhanced micropollutant degradation: important role of ferrate (IV) and ferrate (V)
T Yang, J Mai, H Cheng, M Zhu, S Wu… - Environmental …, 2021 - ACS Publications
This paper investigated ultraviolet A light-emitting diode (UVA-LED) irradiation to activate Fe
(VI) for the degradation of micropollutants (eg, sulfamethoxazole (SMX), enrofloxacin, and …
(VI) for the degradation of micropollutants (eg, sulfamethoxazole (SMX), enrofloxacin, and …
Ferrate (VI) oxidation of bisphenol E–Kinetics, removal performance, and dihydroxylation mechanism
Abstract Bisphenol E (bis (4-hydroxyphenyl) ethane, BPE), as a typical endocrine disrupting
chemical, is commonly detected in source water and drinking water, which poses potential …
chemical, is commonly detected in source water and drinking water, which poses potential …
Degradation of sulfamethoxazole by cobalt-nickel powder composite catalyst coupled with peroxymonosulfate: Performance, degradation pathways and mechanistic …
In this work, cobalt-nickel powder (Co-NP) synthesized through electroless plating was used
as a heterogeneous bimetallic catalyst for peroxymonosulfate (PMS) activation to degrade …
as a heterogeneous bimetallic catalyst for peroxymonosulfate (PMS) activation to degrade …
Lignin-derived biochar to support CoFe2O4: effective activation of peracetic acid for sulfamethoxazole degradation
J Dong, W Xu, S Liu, Y Gong, T Yang, L Du… - Chemical Engineering …, 2022 - Elsevier
The conversion of biomass wastes to highly efficient biochar-based catalysts has attracted
more and more attention because it meets the environmental protection concept of waste …
more and more attention because it meets the environmental protection concept of waste …