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 …

Abstract Ferrate [Fe (VI)] has been proven to be an effective oxidant in wastewater treatment,
and Fe (VI)-based processes have been developed in refractory pollutants treatment. In this …

The increasing presence of antibiotics in water sources threatens public health and
ecosystems. Various treatments have been previously applied to degrade antibiotics, yet …

Ferrate (VI) and peracetic acid (PAA) are two oxidants of growing importance in water
treatment. Recently, our group found that simultaneous application of ferrate (VI) and PAA …

In the realm of wastewater treatment, the power of ferrate (Fe (VI)) and peracetic acid (PAA)
as oxidants stands out. But their combined might is where the enhancement truly lies. Their …

Current research focuses on introducing additional energy or reducing agents to directly
accelerate the formation of Fe (IV) and Fe (V) from ferrate (Fe (VI)), thereby ameliorating the …

High-valent iron (Fe (IV/V/VI)) has been widely applied in water decontamination. However,
common Fe (II)-activating oxidants including hydrogen peroxide (H2O2) and persulfate react …

Fe (IV) and Fe (V) are promising oxidants for the selective removal of emerging organic
contaminants (EOCs) from water under near-neutral conditions. The Fe (III)-assisted …

For the first time, this study showed that the apparent second-order rate constants (k app) of
six selected emerging organic contaminants (EOCs) oxidation by Fe (VI) increased …

The epidemic of COVID-19 has aroused people's particular attention to biosafety. A growing
number of disinfection products have been consumed during this period. However, the flaw …