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 …

The concentrations of U in natural waters are usually low, being typically less than 4 μg/L in
river water, around 3.3 μg/L in open seawater, and usually less than 5 μg/L in groundwater …

Tungsten oxide nanowires (WO 3− x) with rich oxygen vacancies (OVs) were fabricated
through a facile hydrothermal method, which had both high adsorptive capability and …

Clay minerals retain or adsorb metal ions in the Earth's critical zone. Rocks, sediments and
soils rich in clay minerals can concentrate rare earth elements (REEs) in ion adsorption-type …

In this study, we construct a surface Fenton system with hydroxylamine (NH2OH), goethite (α-
FeOOH), and H2O2 (α-FeOOH–HA/H2O2) to degrade various organic pollutants including …

Uranium (U) is of enormous global importance because of its use in energy generation,
albeit with potential environmental legacies. While naturally occurring U is widespread in the …

Nano zero-valent iron (nZVI) has attracted much more attention for its potential applications
in the fields of environmental contaminant remediation and detoxification. Generally, nZVI …

Building on the success of its 1993 predecessor, this second edition of Geochemistry,
Groundwater and Pollution has been thoroughly re-written, updated and extended to …

Life and element cycling on Earth is directly related to electron transfer (or redox) reactions.
An understanding of biogeochemical redox processes is crucial for predicting and protecting …

Trace elements are actively cycled in seawater, are essential components for marine life,
and are transported to the seafloor where they can become enriched in marine sediments …