In response to the increasingly serious environmental pollution problem, iron-based sulfite
activation has been considered as an effective option for environmental remediation. This …

Abstract Many iron (II, III, VI)-and manganese (II, IV, VII)-based oxidation processes can
generate reactive iron/manganese species (RFeS/RMnS, ie, Fe (IV)/Fe (V) and Mn (III)/Mn …

In this work, ferrate (Fe (VI)) and calcium sulfite (CaSO 3) were combined to treat surface
water for improving ultrafiltration (UF) performance. During the pre-treatment process, the Fe …

The advanced oxidation processes based on peroxymonosulfate (PMS) has shown great
promise for the removal of emerging contaminants in water reuse applications. Constructing …

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 global contamination of water resources by organic contaminants such as
pharmaceuticals and pesticides is calling for advanced remediation techniques, yet …

This paper presents Fe (VI) combined with Ti/Zn layered double hydroxide (Fe (VI)-Ti/Zn
LDH) as a composite to degrade organic pollutants (pesticides and pharmaceuticals) under …

With the growing complexity and severity of water pollution, it has become increasingly
challenging to effectively remove contaminants or inactivate microorganisms just by …

Abstract Ferrate (VI), though well-acknowledged for its multiple treatment functions, has
traditionally found application in an auxiliary treatment of conventional water treatment …

The presence of cylindrospermopsin (CYN), a potent cyanotoxin, in drinking water sources
poses a tremendous risk to humans and the environment. Detailed kinetic studies herein …