Article citationsMore>>
Voudouris, P.C., Melfos, V., Spry, P.G., Bindi, L., Kartal, T., Arikas, K., Moritz, R. and Ortelli, M. (2009) Rhenium-Rich Molybdenite and Rheniite in the Pagoni Rachi Mo-Cu-Te-Ag-Au Prospect, Northern Greece: Implications for the Re Geochemistry of Porphyry-Style Cu-Mo and Mo Mineralization. Canadian Mineralogist, 47, 1013-1036.
http://dx.doi.org/10.3749/canmin.47.5.1013
has been cited by the following article:
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TITLE:
Towards the Recovery of By-Product Metals from Mine Wastes: An X-Ray Absorption Spectroscopy Study on the Binding State of Rhenium in Debris from a Centennial Iberian Pyrite Belt Mine
AUTHORS:
Maria-Ondina Figueiredo, Teresa Pereira da Silva, João Pedro Veiga, Daniel de Oliveira, Maria João Batista
KEYWORDS:
Mine Waste Materials By-Products; Iberian Pyrite Belt; Rhenium; XANES; Re L3-Edge
JOURNAL NAME:
Journal of Minerals and Materials Characterization and Engineering,
Vol.2 No.2,
March
24,
2014
ABSTRACT: Rhenium is a very scarce element, occurring in the Earth's crust mainly carried by molybdenite (MoS2). Due to a very low availability comparative to actual industrial demand, rhenium is nowadays one of the most expensive mineral commodities and an increased interest is focused on ex- ploring residues resulting from a long-term mining, particularly of sulphide ore deposits. It is therefore noteworthy to assign the presence of rhenium (in a concentration up to 3 ppm) in the waste materials from the old sulphur factory at the abandoned mine of Sao Domingos (Iberian Pyrite Belt, Southeast Portugal), exploited since the Roman occupation of Iberia. Aiming at a potential sustainable recovery of rhenium as a by-product, X-ray near-edge absorption spectroscopy (XANES) was applied to clarify the Re-binding and mode of occurrence by comparing Re L3-edge XANES spectra obtained from mine waste samples (previously fully characterized by X-ray laboratory techniques) with similar spectra collected from Re-rich molybdenites (Mo1-xRexS2) and from Re-O model compounds configuring various valences and coordination environments of rhenium ions. Obtained results are commented, ruling out a possible Re-S binding and rather conforming with the binding of rhenium to oxygen in the analysed mine waste materials.