An analysis of Zinc sorption to amorphous versus crystalline iron oxides using XAS

Authors

Paras Trivedi, Newark College of Engineering
Lisa Axe, Newark College of Engineering
Trevor A. Tyson, New Jersey Institute of Technology

Document Type

Article

Publication Date

12-15-2001

Abstract

This research probes the mechanisms of Zn adsorption on hydrated oxides of iron (HFO and goethite) using XAS. A systematic investigation reveals that Zn²⁺ upon sorption to HFO retains its hydration shell (N ∼6 oxygens, R ∼2.18 Å), irrespective of pH and adsorbate loading. Furthermore, the absence of second-shell contributions in combination with the temperature dependence of the structural parameters confirms outer-sphere adsorption complexes with HFO. In a coprecipitation study, the local coordination environment was consistent with Zn adsorption to HFO. On the other hand, Zn²⁺ strongly adsorbs to goethite forming a tetragonal structure (N ∼4 oxygens and R ∼1.97 Å). Evidence of two Fe³⁺ ions in the second shell at approximately 3.51 Å suggests an innersphere adsorption complex with goethite. Results demonstrate that even though the local structures of HFO and goethite are similar, the surface sites available to transition metals like zinc are vastly different. Overall, these spectroscopic analyses are consistent with macroscopic observations. © 2001 Elsevier Science.

Identifier

0035893407 (Scopus)

Publication Title

Journal of Colloid and Interface Science

External Full Text Location

https://doi.org/10.1006/jcis.2001.7971

ISSN

00219797

First Page

230

Last Page

238

Issue

2

Volume

244

Recommended Citation

Trivedi, Paras; Axe, Lisa; and Tyson, Trevor A., "An analysis of Zinc sorption to amorphous versus crystalline iron oxides using XAS" (2001). Faculty Publications. 14993.
https://digitalcommons.njit.edu/fac_pubs/14993