Partitioning of Platinum-Group Elements (PGE) and Chalcogens (Se, As, Te, Sb, Bi) at Controlled Fo2-fs2 Conditions PDF Download
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Author: Yanan Liu Publisher: ISBN: Category : Languages : en Pages :
Book Description
Abstract A more quantitative understanding of how highly siderophile elements (HSEs: Os, Ir, Ru, Rh, Pt, Pd, Au, Re), Ag, Pb and chalcogens (As, Se, Sb, Te and Bi) behave during magmatic sulfide solidification in nature builds on several important aspects: 1) accurate measurements of their concentrations in natural samples; 2) quantitative constraints on their partitioning behaviors; 3) a crystallization model that can reasonably simulate the ore deposits of interest. In order to better measure the concentrations of these elements during the solidification of sulfide melts, we have developed a new Laser Ablation Inductively Coupled Plasma Mass Spectrometry (LA-ICPMS) standard (Ge-Sb-S glass; Ge6) for improving the trace level measurements of these elements in both sulfide and silicate glass matrices. The Ge6 composition has excellent glass forming capability and can incorporate a variety of dopants up to the 100 ppm level, except for Ru, Os, Re, W and Mo, which can be doped to 5-10 ppm without sacrificing homogeneity. Reference materials (JBSulfide, NiS4, JGb-1, JG-1a, JB-2, BIR-1, BHVO-1) were tested using Ge6 as the standard, and the results agree with accepted values. To better understand and simulate the partitioning behaviors of these elements, a series of experiments to measure partition coefficients (D values) between monosulfide solid solution (MSS) and sulfide melt, as well as MSS and intermediate solid solution (ISS) were also conducted, at 0.1 MPa and 860-926 °C (where these phases can be stabilized), log fS2 -3.0 to -2.2 (similar to the Pt-PtS buffer), with fO2 controlled at the fayalite-magnetite-quartz (FMQ) buffer. The IPGEs (Os, Ir, Ru), Rh and Re are found to be compatible in MSS relative to sulfide melt with D values ranging from ~20 to ~5, and DRe/DOs of ~0.5. Pd, Pt, Au, Ag, Zn, Pb, as well as the chalcogens, are incompatible in MSS, with D values ranging from ~0.1 to ~1 x 10-3. For the same metal/sulfur ratio, D values for the IPGEs, Rh and Re are systematically larger than most previous studies and correlate with higher oxygen content in the sulfide liquid, reflecting the significant effect of oxygen on increasing the activity coefficients for these elements in the melt phase. MSS/ISS partitioning experiments reveal that Ru, Os, Ir, Rh and Re are partitioned into MSS by a factor of >50, whereas Pd, Pt, Ag, Au and the chalcogens partition from weakly (Se, As) to strongly (Ag, Au) into ISS. Uniformly low MSS- and ISS- melt partition coefficients for the chalcogens, Pt, Pd, Ag and Au will lead to enrichment in the residual sulfide liquid, but D values are generally too large to reach early saturation in Pt-Pd-chalcogen-rich accessory minerals, based on current solubility estimates. Instead, these phases likely precipitate at the last dregs of crystallization. Modeled evolution curves for the PGEs and chalcogens are in reasonably good agreement with whole-rock sulfide compositions for the McCreedy East deposit (Sudbury, Ontario), consistent with an origin by crystallization of MSS, then MSS + ISS from sulfide magma.
Author: Yanan Liu Publisher: ISBN: Category : Languages : en Pages :
Book Description
Abstract A more quantitative understanding of how highly siderophile elements (HSEs: Os, Ir, Ru, Rh, Pt, Pd, Au, Re), Ag, Pb and chalcogens (As, Se, Sb, Te and Bi) behave during magmatic sulfide solidification in nature builds on several important aspects: 1) accurate measurements of their concentrations in natural samples; 2) quantitative constraints on their partitioning behaviors; 3) a crystallization model that can reasonably simulate the ore deposits of interest. In order to better measure the concentrations of these elements during the solidification of sulfide melts, we have developed a new Laser Ablation Inductively Coupled Plasma Mass Spectrometry (LA-ICPMS) standard (Ge-Sb-S glass; Ge6) for improving the trace level measurements of these elements in both sulfide and silicate glass matrices. The Ge6 composition has excellent glass forming capability and can incorporate a variety of dopants up to the 100 ppm level, except for Ru, Os, Re, W and Mo, which can be doped to 5-10 ppm without sacrificing homogeneity. Reference materials (JBSulfide, NiS4, JGb-1, JG-1a, JB-2, BIR-1, BHVO-1) were tested using Ge6 as the standard, and the results agree with accepted values. To better understand and simulate the partitioning behaviors of these elements, a series of experiments to measure partition coefficients (D values) between monosulfide solid solution (MSS) and sulfide melt, as well as MSS and intermediate solid solution (ISS) were also conducted, at 0.1 MPa and 860-926 °C (where these phases can be stabilized), log fS2 -3.0 to -2.2 (similar to the Pt-PtS buffer), with fO2 controlled at the fayalite-magnetite-quartz (FMQ) buffer. The IPGEs (Os, Ir, Ru), Rh and Re are found to be compatible in MSS relative to sulfide melt with D values ranging from ~20 to ~5, and DRe/DOs of ~0.5. Pd, Pt, Au, Ag, Zn, Pb, as well as the chalcogens, are incompatible in MSS, with D values ranging from ~0.1 to ~1 x 10-3. For the same metal/sulfur ratio, D values for the IPGEs, Rh and Re are systematically larger than most previous studies and correlate with higher oxygen content in the sulfide liquid, reflecting the significant effect of oxygen on increasing the activity coefficients for these elements in the melt phase. MSS/ISS partitioning experiments reveal that Ru, Os, Ir, Rh and Re are partitioned into MSS by a factor of >50, whereas Pd, Pt, Ag, Au and the chalcogens partition from weakly (Se, As) to strongly (Ag, Au) into ISS. Uniformly low MSS- and ISS- melt partition coefficients for the chalcogens, Pt, Pd, Ag and Au will lead to enrichment in the residual sulfide liquid, but D values are generally too large to reach early saturation in Pt-Pd-chalcogen-rich accessory minerals, based on current solubility estimates. Instead, these phases likely precipitate at the last dregs of crystallization. Modeled evolution curves for the PGEs and chalcogens are in reasonably good agreement with whole-rock sulfide compositions for the McCreedy East deposit (Sudbury, Ontario), consistent with an origin by crystallization of MSS, then MSS + ISS from sulfide magma.
Author: Galina Palyanova Publisher: MDPI ISBN: 303928634X Category : Science Languages : en Pages : 224
Book Description
This Special Issue covers a broad range of topics related to the mineralogy of noble metals (Au, Ag, Pt, Pd, Rh, and Ru) and the occurrence, formation, and distribution of these elements in natural ore-forming systems. This collection of eleven research articles discusses various problems related to these topics. I hope this Special Issue will contribute to a better understanding of the genesis of gold, silver, and other noble metal deposits as well as the behavior of these elements in endogenic and supergene environments, and suggest ways forward to solving the problem of their full extraction from ores.
Author: Montserrat Filella Publisher: Walter de Gruyter GmbH & Co KG ISBN: 311066545X Category : Science Languages : en Pages : 431
Book Description
Antimony (Sb) is an exciting chemical element ubiquitously present in our daily lives. This book provides a coherent and interdisciplinary picture of our current understanding of this element. Subjects ranging from its mineralogy, mining and environmental chemistry to its potential impact in ecosystems and human health are discussed in this monograph.
Author: Jason Harvey Publisher: Walter de Gruyter GmbH & Co KG ISBN: 1501502093 Category : Science Languages : en Pages : 798
Book Description
Highly Siderophile and Strongly Chalcophile Elements in High Temperature Geochemistry and Cosmochemistry, Volume 81 This RiMG (Reviews in Mineralogy & Geochemistry) volume investigates the application of highly siderophile (HSE) and strongly chalcophile elements. This volume has its origin in a short course sponsored by the Mineralogical Society of America and the Geochemical Society held in San Diego, California on the 11th and 12th December 2015, ahead of the American Geophysical Union’s Fall Meeting, which featured a session with the same title. Topics in this volume include: analytical methods and data quality experimental constraints applied to understanding HSE partitioning nucleosynthetic variations of siderophile and chalcophile elements HSE in the Earth, Moon, Mars and asteroidal bodies HSE and chalcophile elements in both cratonic and non-cratonic mantle, encompassing both sub-continental and sub-oceanic lithosphere the importance of the HSE for studying volcanic and magmatic processes, and an appraisal of the importance of magmatic HSE ore formation in Earth’s crust. Highly siderophile and strongly chalcophile elements comprise Re, Os, Ir, Ru, Pt, Rh, Pd, Au, Te, Se and S and are defined by their strong partitioning into the metallic phase, but will also strongly partition into sulfide phases, in the absence of metal. The chemical properties of the HSE mean that they are excellent tracers of key processes in high temperature geochemistry and cosmochemistry, having applications in virtually all areas of earth science. A key aspect of the HSE is that three long-lived, geologically useful decay systems exist with the HSE as parent (107Pd-107Ag), or parent-daughter isotopes (187Re-187Os and 190Pt-186Os). The material in this book is accessible for graduate students, researchers, and professionals with interests in the geochemistry and cosmochemistry of these elements, geochronology, magmatic ore bodies and the petrogenesis of platinum-group minerals.
Author: Rubén Piña Publisher: Springer ISBN: 3319931547 Category : Science Languages : en Pages : 92
Book Description
This book describes the Aguablanca Ni-Cu-PGE sulfide deposit, the first, and to date only, mineralization of this type in southwestern (SW) Europe. Since its discovery in 1993, this ore deposit has attracted the attention of the resource geology community due to its unusual geodynamic context, namely an active plate margin. The book focuses on the key features of the deposit and reports on the ore-forming processes that were most important for its formation.
Author: International Atomic Energy Agency Publisher: ISBN: Category : Business & Economics Languages : en Pages : 66
Book Description
Provides the reader with state of the art information on the various aspects of platinum group element (PGE) analysis and to advise which techniques might be most suitable for a particular analytical problem related to PGEs. In particular, many case studies are described in detail.
Author: Fathi Zereini Publisher: ISBN: 9783642596797 Category : Languages : en Pages : 332
Book Description
Since the implementation of catalysts containing platinum-group-elements (PGE) for the control of vehicle emissions in 1975, a controversial discussion has begun on PGE emissions and eventual consequences for the environment. However, a comprehensive overview of the various works and results in different scientific areas is still lacking. This book covers, for the first time, all aspects of anthropogenic PGE emissions and their consequences for man and environment. The interdisciplinary approach is substantiated by contributions from the fields of environmental geosciences, analytical chemistry, biology and occupational medicine. The articles mirror the actual status of scientific work and discuss environmentally related topics. Modern analytical methods for various environmental matrices as well as models of the current and future geochemical behaviour of PGE in the environment are presented. Bioavailability and toxicological and allergic potentials are discussed. The book aims at the broad community inside the environmentally related sciences (geosciences, chemistry, biology, medicine). Students, scientists and practitioners will have a comprehensive overview of this fast growing field of science.
Author: Louis J. Cabri Publisher: Published for the Geology division of CIM by the Canadian Institute of Mining and Metallurgy ISBN: Category : Platinum group Languages : en Pages : 284
Author: Yanan Liu
Author: Yanan Liu
Author: Galina Palyanova
Author: Montserrat Filella
Author: Jason Harvey
Author: Rubén Piña
Author: Xiaohua Deng
Author: International Atomic Energy Agency
Author: Fathi Zereini
Author: Louis J. Cabri
Author: Paul H. Ribbe