Contaminant adsorption on nanoscale particles: structural and theoretical characterization of Cu2+ bonding on the surface of Keggin-type polyaluminum (Al30) molecular species

Samangi Abeysinghe; Katie W Corum; Diane L Neff; Sara E Mason; Tori Z Forbes

doi:10.1021/la402736t

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Contaminant adsorption on nanoscale particles: structural and theoretical characterization of Cu2+ bonding on the surface of Keggin-type polyaluminum (Al30) molecular species

Journal article

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Contaminant adsorption on nanoscale particles: structural and theoretical characterization of Cu2+ bonding on the surface of Keggin-type polyaluminum (Al30) molecular species

Samangi Abeysinghe, Katie W Corum, Diane L Neff, Sara E Mason and Tori Z Forbes

Langmuir, Vol.29(46), pp.14124-14134

11/19/2013

DOI: 10.1021/la402736t

PMID: 24144137

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Abstract

The adsorption of contaminants onto metal oxide surfaces with nanoscale Keggin-type structural topologies has been well established, but identification of the reactive sites and the exact binding mechanism are lacking. Polyaluminum species can be utilized as geochemical model compounds to provide molecular level details of the adsorption process. An Al30 Keggin-type species with two surface-bound Cu(2+) cations (Cu2Al30-S) has been crystallized in the presence of disulfonate anions and structurally characterized by single-crystal X-ray diffraction. Density functional theory (DFT) calculations of aqueous molecular analogues for Cu2Al30-S suggest that the reactivity of Al30 toward Cu(2+) and SO4(2-) shows opposite trends in preferred adsorption site as a function of particle topology, with anions preferring the beltway and cations preferring the caps. The bonding competition was modeled using two stepwise reaction schemes that consider Cu2Al30-S formation through initial Cu(2+) or SO4(2-) adsorption. The associated DFT energetics and charge density analyses suggest that strong electrostatic interactions between SO4(2-) and the beltway of Al30 play a vital role in governing where Cu(2+) binds. The calculated electrostatic potential of Al30 provides a theoretical interpretation of the topology-dependent reactivity that is consistent with the present study as well as other results in the literature.

Adsorption

Quantum Theory

Copper - chemistry

Aluminum - chemistry

Nanoparticles - chemistry

Molecular Conformation

Surface Properties

Models, Molecular

Details

Title: Subtitle: Contaminant adsorption on nanoscale particles: structural and theoretical characterization of Cu2+ bonding on the surface of Keggin-type polyaluminum (Al30) molecular species
Creators: Samangi Abeysinghe - Department of Chemistry, University of Iowa , Iowa City, Iowa 52242, United States
Katie W Corum
Diane L Neff
Sara E Mason
Tori Z Forbes
Resource Type: Journal article
Publication Details: Langmuir, Vol.29(46), pp.14124-14134
Publisher: United States
DOI: 10.1021/la402736t
PMID: 24144137
ISSN: 0743-7463
eISSN: 1520-5827
Grant note: P30 ES005605 / NIEHS NIH HHS
Language: English
Date published: 11/19/2013
Academic Unit: Civil and Environmental Engineering; Chemistry
Record Identifier: 9983985881702771

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