Antimony Immobilization in Primary-Explosives-Contaminated Soils by Fe–Al-Based Amendments

Abstract: Soils at primary explosives sites have been contaminated by high concentrations of antimony (Sb) and co-occurring heavy metals (Cu and Zn), and are largely overlooked and neglected. In this study, we investigated Sb concentrations and species and studied the effect of combined Fe- and Fe–Al-based sorbent application on the mobility of Sb and co-occurring metals. The content of Sb in soil samples varied from 26.7 to 4255.0 mg/kg. In batch experiments, FeSO4 showed ideal Sb sorption (up to 97% sorption with 10% … Show more

“…For this purpose, a combination of different additives may be an ideal choice. Wang et al [ 9 ] studied the immobilization of Sb, Cu, and Zn with FeSO 4 + Al(OH) 3 , and found that 5% FeSO 4 + 4% Al(OH) 3 was effective for the stabilization of Sb and co-occurring metals. However, for practical purposes, these dosages are still too high.…”

Imperfect but Hopeful: New Advances in Soil Pollution and Remediation

“…For this purpose, a combination of different additives may be an ideal choice. Wang et al [ 9 ] studied the immobilization of Sb, Cu, and Zn with FeSO 4 + Al(OH) 3 , and found that 5% FeSO 4 + 4% Al(OH) 3 was effective for the stabilization of Sb and co-occurring metals. However, for practical purposes, these dosages are still too high.…”

Imperfect but Hopeful: New Advances in Soil Pollution and Remediation

Azido azole-1,3,4-triazine fused energetic materials: A bioinspired strategy for tuning thermal stability and sensitivity of metal-free primary explosives via hierarchical hydrogen-bond self-assembly