Enhanced use of heavy metals for commercial and non-commercial applications has
resulted in industrial and domestic discharge loaded with toxic metal ions creating increased …

Arsenic liberation and accumulation in the groundwater environment are both affected by
the presence of primary ions and soluble organic matter. The most important influencing role …

The synthesis of acrylamide bonded sodium alginate (AM-SA) hydrogel and
acrylamide/graphene oxide bonded sodium alginate (AM-GO-SA) nanocomposite hydrogel …

Iron and manganese oxides are commonly found in nature, such as hematite and pyrolusite,
which strongly affect the migration and transformation of As (III). In this study, a series of …

Abstract Cellulose (CE)/chitosan (CS)/amine-functionalized zirconium 1, 4-
dicarboxybenzene metal–organic framework (UiO-66-NH 2) porous nanofiber membranes …

Arsenic (As) is abundant in the environment and can be found in both organic (eg,
methylated) and inorganic (eg, arsenate and arsenite) forms. The source of As in the …

Arsenic pollution is one of important environmental issues in the world. In this study,
kaolinite clay coated with titanium oxide-magnetic iron oxide nanoparticles (KC/TiO 2-Fe 3 O …

Nanomaterial adsorbents are highly favorable for heavy metal removal due to their large
specific surface areas with enhanced active sites for contaminant adsorption. This paper …

Arsenic-contaminated drinking water is a critical concern worldwide and is threatening to
health. In porous materials, metal-organic frameworks (MOFs) and covalent organic …

Organic ligands have great potential to modulate the structure of iron oxides mineral in the
natural environment and affect those minerals' adsorption performances for arsenic species …