Schwertmannite: A review of its occurrence, formation, structure, stability and interactions with oxyanions
In this article, we provide a critical review on the occurrence, formation, structure and stability
of schwertmannite–an enigmatic Fe (III) oxyhydroxy-sulfate mineral that is of widespread …
of schwertmannite–an enigmatic Fe (III) oxyhydroxy-sulfate mineral that is of widespread …
A review on distribution, biogeochemistry of antimony in water and its environmental risk
Antimony, the compounds of which exhibit toxicity, finds extensive usage in industrial
processes for flame retardants, plastics, batteries, electronic components, and mechanical …
processes for flame retardants, plastics, batteries, electronic components, and mechanical …
Electrolytic manganese residue-biochar composite for simultaneous removal of antimony and arsenic from water: Adsorption performance and mechanisms
Abstract Antimony (Sb) and arsenic (As) pollution in the water environment pose a threat to
the ecological environment and human health. A lot of studies have been conducted on the …
the ecological environment and human health. A lot of studies have been conducted on the …
Antimony isotope fractionation revealed from EXAFS during adsorption on Fe (oxyhydr) oxides
A lack of knowledge about antimony (Sb) isotope fractionation mechanisms in key
geochemical processes has limited its environmental applications as a tracer. Naturally …
geochemical processes has limited its environmental applications as a tracer. Naturally …
Insights into the fate of antimony (Sb) in contaminated soils: Ageing influence on Sb mobility, bioavailability, bioaccessibility and speciation
The effect of long-term ageing (up to 700 days) on the mobility, potential bioavailability and
bioaccessibility of antimony (Sb) was investigated in two soils (S1: pH 8.2; S2: pH 4.9) …
bioaccessibility of antimony (Sb) was investigated in two soils (S1: pH 8.2; S2: pH 4.9) …
Antimony sorption to goethite: effects of Fe (II)-catalyzed recrystallization
The environmental mobility and bioavailability of antimony (Sb) are strongly influenced by
sorption to Fe (III) oxide minerals, such as goethite (αFeOOH). Exposure to aqueous Fe (II) …
sorption to Fe (III) oxide minerals, such as goethite (αFeOOH). Exposure to aqueous Fe (II) …
Antimony (V) incorporation into schwertmannite: critical insights on antimony retention in acidic environments
This study examines incorporation of Sb (V) into schwertmannite─ an Fe (III)
oxyhydroxysulfate mineral that can be an important Sb host phase in acidic environments …
oxyhydroxysulfate mineral that can be an important Sb host phase in acidic environments …
[HTML][HTML] Toxic response of antimony in the Comamonas testosteroni and its application in soil antimony bioremediation
Antimony (Sb) is toxic to ecosystems and potentially to public health via its accumulation in
the food chain. Bioavailability and toxicity of Sb have been reduced using various methods …
the food chain. Bioavailability and toxicity of Sb have been reduced using various methods …
Antimony isotope fractionation during adsorption on aluminum oxides
The environmental fate of antimony (Sb) is often strongly affected by adsorption, and the Sb
isotope fractionation mechanism during adsorption has not been reported. Four batch …
isotope fractionation mechanism during adsorption has not been reported. Four batch …
Antimony isotopic fractionation during Sb (III) oxidation to Sb (V): Biotic and abiotic processes
Oxidation of antimonite (Sb (III)) to antimonate (Sb (V)) plays an important role in the control
of Sb mobility in aquatic systems. Fractionation of Sb isotopes (123 Sb/121 Sb) during Sb …
of Sb mobility in aquatic systems. Fractionation of Sb isotopes (123 Sb/121 Sb) during Sb …