Simultaneous stabilization of particulate and bioavailable arsenic in soils from the realgar mining area by polyacrylamide, nano-SiO2, and ferrihydrite composite materials
Release Time:2024-05-22 Hits:
Date of Publication: 2024-05-22
Journal: Science of the Total Environment
Volume: 926
ISSN: 0048-9697
Key Words: arsenic; Arsenic; Arsenic contamination; article; Article; bioavailability; Bioavailable; composite material; Composite materials; Composites material; compressive strength; Compressive strength; controlled study; Environmental and health risks; Erosion; erosion rate; experimental design; ferric hydroxide; ferrihydrite; Ferrihydrites; health hazard; Health risks; heavy metal; Heavy metals; leaching; Leaching; mining; Mining areas; nanocomposite; Nano-SiO 2; Particulates; physical chemistry; polyacrylamide; polymer; scanning electron microscopy; Silica; silica nanoparticle; Silicon; Simultaneous stabilization; soil; soil acidity; soil erosion; Soil erosion; soil pollution; Soil pollution; Soils; water
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