Iron (Fe) is the fourth most abundant element in the earth's crust and plays important roles in
both biological and chemical processes. The redox reactivity of various Fe (II) forms has …

Mixed-valent iron [Fe (II)-Fe (III)] minerals such as magnetite and green rust have received a
significant amount of attention over recent decades, especially in the environmental …

Prevailing global increases in population, urbanization, and agricultural production are
causing increased pressures on water resources, especially as the use of chemicals in …

Atomic hydrogen (H*) and hydroxyl radicals (• OH) can synergistically realize efficient
mineralization of halogenated organic pollutants, but it requires an electrocatalytic or …

Abiotic degradation of chlorinated solvents by reactive iron minerals such as iron sulfides,
magnetite, green rust, and other Fe (II)‐containing minerals has been observed in both …

Ferrihydrite was exposed to U (VI)-containing cement leachate (pH 10.5) and aged to induce
crystallization of hematite. A combination of chemical extractions, TEM, and XAS techniques …

Green rusts are mixed FeII/FeIII hydroxides that are found in many suboxic environments
where they are believed to play a central role in the biogeochemical cycling of iron. X-ray …

To enhance the advanced oxidation process based on persulfate, CuO was introduced into
the Fe 2+/PS system to achieve a synergistic effect between Fe and Cu. Results showed that …

Iron-reducing conditions in subsurface environments promote dechlorination reactions via
both biotic and abiotic pathways, the latter often mediated via biologically activated minerals …

Proper control/removal of disinfection byproducts (DBPs) is important to drinking water
safety and human health. In this study, a membrane-less electrochemical system was …