1. ATR–IR spectroelectrochemical studies of arsenic speciation at the ferrihydrite–solution interface.
- Author
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Sigrist, Jessica A. and Burgess, Ian J.
- Subjects
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ARSENIC , *ARSENATES , *ARSENITES , *ELECTROLYSIS , *ELECTROCHEMISTRY - Abstract
The adsorption of arsenic on an amorphous iron oxy(hydroxides) (ferrihydrite) under reductive conditions is reported. The fabrication of an ATR–IR spectroelectrochemical cell that allows the vibrational characterization of arsenate and arsenite adsorbed on a thin film of ferrihydrite is described. The cell is shown to allow the application of reductive conditions through the introduction of a working electrode that is positioned adjacent to the mineral phase. ATR–IR spectra reveal that increasingly negative solution potentials (Eh) leads to the loss of adsorbed arsenate prior to the reductive dissolution of Fe(III) in the ferrihydrite. Under the experimental conditions, there is no evidence of reduction of arsenate to arsenite. Through the use of a miniaturized pH probe, the desorption of arsenate through electrochemical biasing is shown to arise solely from competitive adsorption from hydroxide ions produced by electrolysis of water. The results indicate that, within the time frame accessible in these measurements, only extreme reductive conditions are detrimental to arsenic sequestration in mine tailings facilities. [ABSTRACT FROM AUTHOR]
- Published
- 2019
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