Publication
Article Metrics
Citations
Online attention
The effect of aqueous corrosion on the structure and reactivity of zero-valent iron nanoparticles
DOI:
10.1016/j.cej.2016.09.088
Authors:
Huw
Pullin
(University of Bristol)
,
Ross
Springell
(University of Bristol)
,
Stephen
Parry
(Diamond Light Source)
,
Thomas
Scott
(University of Bristol)
Co-authored by industrial partner:
No
Type:
Journal Paper
Journal:
Chemical Engineering Journal
, VOL 308
, PAGES 568 - 577
State:
Published (Approved)
Published:
September 2016
Diamond Proposal Number(s):
10173
Abstract: The following work investigates the effect of aqueous corrosion on the structure of zero-valent iron nanoparticles (hereafter nZVI), and their effectiveness in removing heavy metal contaminants from solution. Our results indicate the corrosion of nZVI is characterised by three periods of activity: i) (<1 d) a rapid change, with the formation of large volumes of amorphous corrosion products (Fe3+ hydroxides with considerable adsorbed water, tentatively, ferrihydrite) with concurrent formation of magnetite; ii) (<4 w) the formation of maghemite, a reduction in surface area and a slow transformation to metastable lepidocrocite; iii) (>4 w) a stabilisation of surface stoichiometry and surface area, the loss of all zero-valent iron and the formation of goethite, which is ascribed as the likely final state of nZVI in geochemically simple solutions. This final transformation was continuing as the experiment concluded. All nZVI corrosion products identified in this study have also been identified as existing in natural environments at the same scale lengths. The reactivity of nZVI exhibited a significant reduction with increasing oxidation, although the reduction in reactivity varies according to the contaminant uptake mechanism. From this work, it is proposed that nZVI will have a considerably greater reactive longevity in the natural environment than previously thought, in the order of weeks or months rather than days as previously reported.
Journal Keywords: Iron nanoparticles; Ageing; Groundwater; Remediation; Heavy metals; Contamination
Subject Areas:
Chemistry,
Earth Science,
Engineering
Instruments:
B18-Core EXAFS
Added On:
03/10/2016 18:48
Discipline Tags:
Desertification & Pollution
Earth Sciences & Environment
Chemistry
Materials Science
Chemical Engineering
Engineering & Technology
Geology
Nanoscience/Nanotechnology
Geochemistry
Technical Tags:
Spectroscopy
X-ray Absorption Spectroscopy (XAS)