Unlike organic contaminants, metal (loid) s do not undergo microbial or chemical
degradation and persist for a long time after their introduction. Bioavailability of metal (loid) s …

The chemical stabilization, or immobilization, of trace elements (metals and metalloids; TE)
in contaminated soil has been studied for decades. A vast number of scientific publications …

An automated biogeochemical microcosm system allowing the control of redox potential
(EH) in soil suspensions was used to assess the effect of EH on the mobility of cadmium …

The potential of using zero-valent iron (ZVI) or a Fe 3 O 4-loaded magnetic biochar to
stabilize arsenic (As) in contaminated soil was investigated in the processes of incubation …

Abstract Knowledge on the redox geochemistry of Ni is behind in comparison to other heavy
metals. Hence, this article reviews the direct and indirect impact of redox potential (EH) on …

Abstract Knowledge of nanoparticulate zero-valent iron (nZVI) transformation in soils and its
relationship with the potential impacts on soil properties are crucial to evaluate the …

This study demonstrates that floodplain soils of the River Wupper, Germany, are seriously
contaminated with metal (loid) s. We used an automated biogeochemical microcosm system …

Heavy metals are dangerous pollutants that in spite of occurring naturally are released in
major amounts to the environment due to anthropogenic activities. After being released in …

Purpose Floodplain soils are often contaminated with toxic elements such as Ba, Cr, Sr, and
V. For an adequate risk assessment of such contaminated sites, the assessment of factors …

The aim of this study was to compare the immobilisation of metal (loid) s in two differently
contaminated soils using micro zerovalent iron (ZVI) and nano zerovalent iron (nZVI) …