In this study, the reactive performance of magnesium hydroxide-coated iron nanoparticles
(Fe 0@ Mg (OH) 2) was investigated for the removal of hexavalent chromium (Cr (VI)) from …

Along with nanoscience advances, nanoarchitectonics have emerged as novel
nanomaterials, with self-assembled arrangement of atoms and interesting properties …

Groundwater quality assessment and prediction (GQAP) is vital for protecting groundwater
resources. Traditional GQAP methods can not adequately capture the complex relationships …

The presence of contaminants of emerging concern (CEC), such as pharmaceuticals, in
water sources is one of the main concerns nowadays due to their hazardous properties …

The Cr (VI) removal by sulfidated zero-valent iron (S-ZVI) is a complex process, and reaction
conditions can greatly affect Cr (VI) removal performance. To obtain the optimal …

The use of zero-valent iron (ZVI) for nitrate reduction has long been a topic of interest owing
to its excellent reactivity compared to other inorganic electron donors. However, there is …

The extensive application of chromium (Cr) in many industries has inevitably resulted in the
release of Cr (VI) into the groundwater environment, thus posing damage to the ecosystem …

Context: To increase the efficiency of wastewater treatment, modeling and optimization of
pollutant removal processes are the best solutions. The relationship between input and …

The quality of groundwater resources is at catastrophic risk. The proper performance of iron
nanoparticles has made a permeable reactive barrier (PRB) an alternative to conventional …

Groundwater contamination by nitrate has become a global issue, mainly caused by the
excessive use of fertilizers. Thus, several technologies, such as permeable reactive barriers …