Arsenic sorption onto iron oxide spinels such as magnetite may contribute to arsenic immobilization at redox fronts in soils, sediments, and aquifers, as well as in putative remediation and water treatment technologies. We have investigated As(V) speciation tresulting from different sorption processes on magnetite nanoparticles, including both adsorption and precipitation, using X-ray absorption fine structure (XAFS) spectroscopy and transmission electron microscopy (TEM). XAFS results suggest that AsO4 tetrahedra form predominantly inner sphere bidentate corner sharing (C-2) complexes and outer-sphere complexes on magnetite in the adsorption experiments. In the precipitation experiments, an increasing fraction of AsO4 tetrahedra appears to...
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A mechanism responsible for long-term As fixation in the environment is described here for the first...
Groundwater contaminated by arsenic (As) is a serious concern because it poses a significant threat ...
Iron oxides/oxyhydroxides, namely maghemite, iron oxide-silica composite, akaganeite, and ferrihydri...
International audienceArsenic sorption onto iron oxide spinels such as magnetite may contribute to a...
International audienceArsenic sorption onto maghemite potentially contributes to arsenic retention i...
Removal of arsenic (As) from water supplies is needed to reduce As exposure through drinking water a...
Higher environmental standards have made the removal of arsenic from water an important problem for ...
The interaction of arsenite (As(III)) and arsenate (As(V)) with magnetite nanoparticles has been stu...
International audienceArsenic sorption onto iron oxide spinels such as magnetite could contribute to...
Nanomaterials (typically 1~100nm in diameter) have been of considerable environmental attention due ...
Herein we report effects of partial substitution of Fe3+ by Y3+ in magnetite (Fe3O4) on morphology a...
Conventional adsorbents for decontaminating arsenic exhibit low efficacy for the removal of arsenite...
“Green rust” (GR), a redox-active Fe(II)–Fe(III) layered double hydroxide, is a potential environmen...
International audienceIn many parts of the world, arsenic from geogenic and anthropogenic sources de...
Numerous studies have examined arsenic adsorption on varying adsorbents including iron oxides, alumi...
A mechanism responsible for long-term As fixation in the environment is described here for the first...
Groundwater contaminated by arsenic (As) is a serious concern because it poses a significant threat ...
Iron oxides/oxyhydroxides, namely maghemite, iron oxide-silica composite, akaganeite, and ferrihydri...
International audienceArsenic sorption onto iron oxide spinels such as magnetite may contribute to a...
International audienceArsenic sorption onto maghemite potentially contributes to arsenic retention i...
Removal of arsenic (As) from water supplies is needed to reduce As exposure through drinking water a...
Higher environmental standards have made the removal of arsenic from water an important problem for ...
The interaction of arsenite (As(III)) and arsenate (As(V)) with magnetite nanoparticles has been stu...
International audienceArsenic sorption onto iron oxide spinels such as magnetite could contribute to...
Nanomaterials (typically 1~100nm in diameter) have been of considerable environmental attention due ...
Herein we report effects of partial substitution of Fe3+ by Y3+ in magnetite (Fe3O4) on morphology a...
Conventional adsorbents for decontaminating arsenic exhibit low efficacy for the removal of arsenite...
“Green rust” (GR), a redox-active Fe(II)–Fe(III) layered double hydroxide, is a potential environmen...
International audienceIn many parts of the world, arsenic from geogenic and anthropogenic sources de...
Numerous studies have examined arsenic adsorption on varying adsorbents including iron oxides, alumi...
A mechanism responsible for long-term As fixation in the environment is described here for the first...
Groundwater contaminated by arsenic (As) is a serious concern because it poses a significant threat ...
Iron oxides/oxyhydroxides, namely maghemite, iron oxide-silica composite, akaganeite, and ferrihydri...
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