AI Article Synopsis

  • * X-ray diffraction analyses revealed that different iron precursors change the crystalline structure, leading to increased reactivity with water and trichloroethene (TCE) in SNZVI materials.
  • * The choice of sulfur precursor determines the sulfur composition in SNZVI; for example, SNZVI synthesized with sulfate results in different properties, such as hydrophobicity and TCE selectivity, compared to those made with other sulfur sources.

Article Abstract

The reactivity of sulfidized nanoscale zerovalent iron (SNZVI) is affected by the amount and species of sulfur in the materials. Here, we assess the impact of the Fe (Fe and Fe) and S (SO, S, and S) precursors used to synthesize both NZVI and SNZVI on the resulting physicochemical properties and reactivity and selectivity with water and trichloroethene (TCE). X-ray diffraction indicated that the Fe precursors altered the crystalline structure of both NZVI and SNZVI. The materials made from the Fe precursor had an expanded lattice in the Fe body-centered-cubic (BCC) structure and lower electron-transfer resistance, providing higher reactivity with water (∼2-3 fold) and TCE (∼5-13 fold) than those made from an Fe precursor. The choice of the S precursor controlled the S speciation in the SNZVI particles, as indicated by X-ray absorption spectroscopy. Iron disulfide (FeS) was the main S species of SNZVI made from SO, whereas iron sulfide (FeS) was the main S species of SNZVI made from S/S. The former SNZVI was more hydrophobic, reactive with, and selective for TCE compared to the latter SNZVI. These results suggest that the Fe and S precursors can be used to select the conditions of the synthesis process and provide selected physicochemical properties (e.g., S speciation, hydrophobicity, and crystalline structure), reactivity, and selectivity of the SNZVI materials.

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Source
http://dx.doi.org/10.1021/acs.est.0c03879DOI Listing

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