Goethite-based carbon foam nanocomposites for concurrently immobilizing arsenic and metals in polluted soils

Chemosphere. 2022 Aug:301:134645. doi: 10.1016/j.chemosphere.2022.134645. Epub 2022 Apr 16.

Abstract

Although different amendments have been used for the immobilization of metals and metalloids in contaminated soils, in most of them there are still important challenges that need to be faced in order to achieve an optimal result. In this work, a new material based on a carbon foam impregnated with goethite nanoneedles has been developed with the aim of evaluating its effect on the mobility and availability of As, Cd, Cu, Pb and Zn in an industrial soil. For this purpose, leaching, sequential extraction and phytotoxicity studies have been carried out. The results were compared with the same carbon foam without goethite impregnation. When the soil was treated with goethite-based carbon foam nanocomposite, the mobility of metal(loid)s was markedly reduced, with the exception of Zn, which showed moderate immobilization. The presence of acid groups on the surface of the carbon foam, together with a high surface area, led to a strong immobilization of pollutants. Moreover, the modification of the foams using goethite nanoneedles, imply that the novel nanocomposite obtained is effective to remediate simultaneously metal and metalloid-polluted soils, without any relevant effect on soil toxicity.

Keywords: Arsenic; Carbon foam; Iron-based nanoparticles; Metal immobilization; Soil remediation.

MeSH terms

  • Arsenic* / analysis
  • Carbon
  • Iron Compounds
  • Metals
  • Metals, Heavy* / analysis
  • Minerals
  • Nanocomposites*
  • Soil
  • Soil Pollutants* / analysis

Substances

  • Iron Compounds
  • Metals
  • Metals, Heavy
  • Minerals
  • Soil
  • Soil Pollutants
  • goethite
  • Carbon
  • Arsenic