A critical review on arsenic and antimony adsorption and transformation on mineral facets

R Kumar, C Jing, L Yan - Journal of Environmental Sciences, 2024 - Elsevier
Abstract Arsenic (As) and antimony (Sb), with analogy structure, belong to VA group in the
periodic table and pose a great public concern due to their potential carcinogenicity. The …

Antimony isotope fractionation revealed from EXAFS during adsorption on Fe (oxyhydr) oxides

W Zhou, J Zhou, X Feng, B Wen, A Zhou… - Environmental …, 2023 - ACS Publications
A lack of knowledge about antimony (Sb) isotope fractionation mechanisms in key
geochemical processes has limited its environmental applications as a tracer. Naturally …

[HTML][HTML] Antimony sorption to schwertmannite in acid sulfate environments

M Rastegari, N Karimian, SG Johnston… - Journal of Hazardous …, 2024 - Elsevier
Schwertmannite is a poorly-crystalline Fe (III) oxyhydroxysulfate mineral that may control Sb
(V) mobility in acid sulfate environments, including acid mine drainage and acid sulfate soils …

The fate of Sb (V) and As (V) during the aging of ferrihydrite

Z Wu, Y Zhao, Y Zheng, M Yin, J Wang, N Bolan… - Chemical Engineering …, 2024 - Elsevier
Iron (oxyhydr) oxides, especially ferrihydrite (Fh), abundant in the natural environment, are
frequently applied in controlling the migration of heavy metals like antimony (Sb) and …

[HTML][HTML] Unveiling the crucial role of iron mineral phase transformation in antimony (V) elimination from natural water

X Liu, Y Wang, H Xiang, J Wu, X Yan, W Zhang… - Eco-Environment & …, 2023 - Elsevier
Antimony (Sb) in natural water has long-term effects on both the ecological environment and
human health. Iron mineral phase transformation (IMPT) is a prominent process for removing …

Advanced oxidation processes mediated by Schwertmannite for the degradation of organic emerging contaminants: Mechanism and synergistic approach

S Qu, R Wang, M Wei, X Hu, X Song - Journal of Water Process …, 2024 - Elsevier
Organic emerging contaminants (OECs) endure in the environment, accumulating in the
organisms along the food chain, with the significant or potential negative impacts on human …

Sulfidation− reoxidation enhances heavy metal immobilization by vivianite

Z Xu, Z Huang, H Li, S Zhu, Z Lei, C Liu, F Meng… - Water Research, 2024 - Elsevier
Iron minerals in nature are pivotal hosts for heavy metals, significantly influencing their
geochemical cycling and eventual fate. It is generally accepted that, vivianite, a prevalent …

[HTML][HTML] Antimony (V) sorption and coprecipitation with ferrihydrite: An examination of retention mechanisms and the selectivity of commonly-applied extraction …

MH Moghaddam, N Karimian, SG Johnston… - Journal of hazardous …, 2024 - Elsevier
We investigated the mechanisms that control Sb (V) sorption and coprecipitation with
ferrihydrite across a range of Sb (V) loadings, and examined the associated effects on Sb (V) …

Antimony (V) behavior during the Fe (II)-induced transformation of Sb (V)-bearing natural multicomponent secondary iron mineral under acidic conditions

W Lin, L Peng, H Li, T Xiao, J Wang, N Wang… - Science of The Total …, 2024 - Elsevier
Fe (II)-induced phase transformations of secondary iron minerals have attracted
considerable attention due to their influence on antimony (Sb) mobility. However, Fe (II) …

Detecting antimony (III) on-site using novel gel-based techniques: Colorimetric diffusive equilibrium in thin films for two-dimensional imaging and surface-enhanced …

K Xu, J Ren, X Shan, M Zhang, C Jing - Talanta, 2024 - Elsevier
Antimony (Sb) pollution has raised increasing public concerns and its rapid on-site
screening is central for the risk assessment. Herein, we proposed two gel-based methods …