Rhenium in Molybdenite: a Database Approach to Identifying Geochemical Controls on the Distribution of a Critical Element

Barton, Isabel F.; Rathkopf, Christian A.; Barton, Mark D.

doi:10.1007/s42461-019-00145-0

Cited by 19 publications

(20 citation statements)

References 47 publications

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“…Although the ages of the molybdenites from Northparkes and Two-Thirty are identical, their contrasting Re contents (i.e., 1264-1717 ppm Northparkes vs 225 ppm for Two-Thirty; Table 7) suggests significant differences in magmatic-hydrothermal evolution or depositional conditions at the two sites. The high Re contents at Northparkes are similar to those of other alkalic-hosted porphyry deposits in the region such as Cadia (Kemp et al, 2020;e.g., Wilson et al, 2007) and Cu ± Au porphyry deposits generally (Barton et al, 2020;Berzina et al, 2005;Stein, 2014;Stein et al, 2001;Terada et al, 1971) . These high-Re molybdenites are strongly associated with intermediate-composition intrusions and have been ascribed to a significant mantle contribution to the magmas (Barton et al, 2020;Berzina et al, 2005;e.g., Stein et al, 2001).…”

Section: Rhenium Distributions In Molybdenite From Two-thirty and Nor...mentioning

confidence: 99%

“…The high Re contents at Northparkes are similar to those of other alkalic-hosted porphyry deposits in the region such as Cadia (Kemp et al, 2020;e.g., Wilson et al, 2007) and Cu ± Au porphyry deposits generally (Barton et al, 2020;Berzina et al, 2005;Stein, 2014;Stein et al, 2001;Terada et al, 1971) . These high-Re molybdenites are strongly associated with intermediate-composition intrusions and have been ascribed to a significant mantle contribution to the magmas (Barton et al, 2020;Berzina et al, 2005;e.g., Stein et al, 2001).…”

Section: Rhenium Distributions In Molybdenite From Two-thirty and Nor...mentioning

confidence: 99%

“…In contrast, lower Re concentrations in molybdenite are typically associated with more evolved magmatic-hydrothermal systems, although physicochemical conditions such as redox and the availability of reduced sulfur also exerts a strong control on molybdenite Re contents (Barton et al, 2020). Therefore, the lower Re content of the Two-Thirty molybdenite relative to Ordovician porphyry mineralisation elsewhere in the Macquarie Arc may be indicating a difference in magmatic sources, which could be tested through additional radiogenic isotope studies (e.g., Rb-Sr, Sm-Nd, Lu-Hf).…”

Section: Rhenium Distributions In Molybdenite From Two-thirty and Nor...mentioning

confidence: 99%

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Geology and geochronology of the Two-Thirty prospect, Northparkes district, NSW

Wells

Cooke

Baker

et al. 2021

Australian Journal of Earth Sciences

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The Northparkes district, central New South Wales, hosts several economic Cu-Au deposits associated with discrete, thin, porphyry intrusive complexes emplaced in the Late Ordovician during formation of the Macquarie Arc. The recently discovered Two-Thirty Cu-Au-(Mo) prospect is a mineralised magmatic-hydrothermal breccia complex that is hosted by the moderately east-dipping Goonumbla Volcanic Complex on the western limb of the Milpose syncline ~15 km south of the Northparkes porphyry district. Generation of the magmatichydrothermal breccia complex is interpreted to be related to the 448.0 ± 4.4 Ma emplacement of the Two-Thirty porphyry. However, Re-Os dating of molybdenite from the breccia complex indicates a potential for a ca 440 Ma mineralising event that has similar timing to economic porphyry mineralisation in the Northparkes district. The discovery of the Two-Thirty prospect has important implications for exploration in the Northparkes district and the broader Macquarie Arc. Two-Thirty is only the second known occurrence of magmatic-hydrothermal breccia-hosted mineralisation discovered within the Macquarie Arc, with the other being Cadia Quarry. Mineralisation at Two-Thirty is potentially older than the Northparkes and Cadia deposits, and younger than the epithermal and calc-alkaline deposits at Cowal, Marsden and Ridgeway.Key Points:1. The Two-Thirty is a polyphase magmatic-hydrothermal breccia complex that hosts Cu-Au (Mo).2. The Two-Thirty is the first significant breccia-hosted mineralisation found in the Northparkes district.3. U-Pb zircon crystallisation ages of the causative intrusion at Two-Thirty pre-date mineralisation at Northparkes.4. Re-Os dates of molybdenite from the Two-Thirty breccia complex are coeval with synmineralisation at Northparkes, supporting the model of periodic release of melts and fluids from underlying magma chambers during the formation of porphyry mineralisation in the Northparkes district.

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Section: Rhenium Distributions In Molybdenite From Two-thirty and Nor...mentioning

confidence: 99%

Section: Rhenium Distributions In Molybdenite From Two-thirty and Nor...mentioning

confidence: 99%

Section: Rhenium Distributions In Molybdenite From Two-thirty and Nor...mentioning

confidence: 99%

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Geology and geochronology of the Two-Thirty prospect, Northparkes district, NSW

Wells

Cooke

Baker

et al. 2021

Australian Journal of Earth Sciences

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“…Finally, 3R-MoS 2 may be obtained by extraction from molybdenite ore. An exhaustive list of globally reported instances of 3R-MoS 2 samples is too large for this review (>1000 at the time of writing); instead, a selection of metastudies are provided (also see ref for suggested search terms). ,,− Natural occurrence of the 3R-MoS 2 polytype has been shown to strongly correlate to the presence and concentration of impurities; primarily rhenium, but also tungsten, niobium, vanadium, iron, and titanium . It appears that these impurities induce defects in nascent MoS 2 , which make 3R-MoS 2 growth by screw dislocation more probable (vide supra). , Given that rhenium is both valuable and scarce (with an average crustal abundance of 0.5 ppb), and that MoS 2 is the primary deposit in which rhenium is found (it can substitute up to tens of percent of Mo atoms), the 3R-MoS 2 fraction of natural molydenite is an important indicator of the value of the molybdenite ore. Additionally, because 187 Re will undergo β decay to produce 187 Os, the Re/Os ratio may be used as a chronometer, which makes 3R-MoS 2 deposits important for dating strata. , The 3R-MoS 2 fraction of molybdenite also has implications for the processing and recovery of the ore. McClung showed that the 3R-MoS 2 polytype is more difficult to grind and is harder to separate by flotation as it less buoyant than is the 2H-MoS 2 phase…”

Section: Syntheses Of 3r-mos2mentioning

confidence: 99%

Section: Polytype Definitionmentioning

confidence: 99%

3R-MoS₂ in Review: History, Status, and Outlook

Strachan

Masters

Maschmeyer

2021

ACS Appl. Energy Mater.

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Transition metal dichalcogenides (TMDs) of molybdenum and tungsten are layered van der Waals materials that exhibit a rich array of polytypes. The different possible arrangements of the constituents of the “two-dimensional” MX2 sheets (where M = group 4–10 elements, X = chalcogen) give rise to a host of interesting and tunable phenomena. Molybdenite, or molybdenum disulfide (MoS2) in its most abundant and thermodynamically stable form, 2H-MoS2, is perhaps the most widely used TMD, though the potential applications of its metastable polytypes have been recognized only recently. From among the polytypes, the 3R-MoS2 (rhombohedral) phase has attracted the most interest because of its thermodynamic stability, ABC stacking (as opposed to the AA′ of the more common 2H-MoS2), and lack of inversion symmetry. These properties make it an excellent candidate for photonics, optoelectronics, and catalysis. Because the literature on this material is rapidly expanding, this review seeks to summarize the history, known and predicted characteristics, syntheses, and applications, as well as common misconceptions of, and surrounding, 3R-MoS2. Although the review is chemically focused, it includes suggested reading to cover a broader scope.

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