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Published (Version of record)CC BY-NC-ND V4.0, Open Access
Published (Version of record)CC BY-NC-ND V4.0, Open
Journal article
A modeling approach for unveiling adsorption of toxic ions on iron oxide nanocrystals
Journal of Hazardous Materials, Vol.417, pp.1-10
05/09/2021
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Source: InCites
Abstract
The era of advanced computer simulations in materials science enables a great potential to design in silico computational experiments for (nano-)material performance. The adsorption efficiency of nanoparticles in various environments can be unveiled by atomistic models and computer simulations. Arsenic (As) is one of the important globally distributed contaminants with a hazardous impact on human health and environment, and it can strongly bind with iron nanocrystals (e.g., hematite (Fe2O3)) depending on their shape and size. Here, we developed a novel Kinetic Monte Carlo (KMC) model capable of exploring and delineating shape-efficiency dependence for Fe2O3 nanocrystals in contact with arsenate-contaminated water. This newly designed model demonstrated the performance of nanocrystals for removal of toxic (As) ions on their surface. The current model opens new avenues for designing further advanced KMC models for nanoparticles-toxic ions interactions, under varying environmentally relevant situations, e.g., groundwater, wetlands, and water treatment systems. In addition to bidentate adsorption complexes, implemented in the model presented, monodentate and outer-sphere adsorption complexes should be incorporated into the KMC model. Detailed environmental controls can be addressed by implementation of pH and background ions.
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•Statistical mechanics is applied to reveal adsorption mechanisms of toxic ions.•Arsenate (As(V)) adsorption was modeled on iron oxide (hematite) nanocrystals.•As(V) concentration in water-nanoparticle system is efficiently predicted.•As(V) adsorption depends on shape of iron oxide nanocrystals.
Details
- Title
- A modeling approach for unveiling adsorption of toxic ions on iron oxide nanocrystals
- Creators
- Inna Kurganskaya - University of BremenNabeel Khan Niazi - University of Agriculture FaisalabadAndreas Luttge - University of Bremen
- Publication Details
- Journal of Hazardous Materials, Vol.417, pp.1-10
- Publisher
- Elsevier BV
- Grant note
- We gratefully acknowledge financial support by the Bundesministerium für Bildung und Forschung (BMBF) (Federal Ministry of Education and Research, Germany), grant 03G0871A to Andreas Luttge.
- Identifiers
- 991012948495102368
- Copyright
- © 2021 The Authors. Published by Elsevier B.V. This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/).
- Academic Unit
- Faculty of Science and Engineering; School of Environment, Science and Engineering; Southern Cross GeoScience; Science
- Language
- English
- Resource Type
- Journal article