A new view on gold speciation in sulfur-bearing hydrothermal fluids from in situ X-ray absorption spectroscopy and quantum-chemical modeling

Despite the common belief that Au I complexes with hydrogen sulfide ligands (H 2S/HS −) are the major carriers of gold in natural hydrothermal fluids, their identity, structure and stability are still subjects of debate. Here we present the first in situ measurement, using X-ray absorption fine stru...

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Published inGeochimica et cosmochimica acta Vol. 73; no. 18; pp. 5406 - 5427
Main Authors Pokrovski, Gleb S., Tagirov, Boris R., Schott, Jacques, Hazemann, Jean-Louis, Proux, Olivier
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 15.09.2009
Elsevier
Subjects
Instrumentation and Detectors
Physics
gold
XAFS spectroscopy
quantum- 25 chemical modeling
hydrothermal fluid
Au-S complexes
sulfur
thermodynamic properties
Online AccessGet full text
ISSN0016-7037
1872-9533
1872-9533
DOI10.1016/j.gca.2009.06.007

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Abstract Despite the common belief that Au I complexes with hydrogen sulfide ligands (H 2S/HS −) are the major carriers of gold in natural hydrothermal fluids, their identity, structure and stability are still subjects of debate. Here we present the first in situ measurement, using X-ray absorption fine structure (XAFS) spectroscopy, of the stability and structure of aqueous Au I–S complexes at temperatures and pressures ( T–P) typical of natural sulfur-rich ore-forming fluids. The solubility of native gold and the local atomic structure around the dissolved metal in S–NaOH–Na 2SO 4–H 2SO 4 aqueous solutions were characterized at temperatures 200–450 °C and pressures 300–600 bar using an X-ray cell that allows simultaneous measurement of the absolute concentration of the absorbing atom (Au) and its local atomic environment in the fluid phase. Structural and solubility data obtained from XAFS spectra, combined with quantum-chemical calculations of species geometries, show that gold bis(hydrogensulfide) Au(HS) 2 − is the dominant Au species in neutral-to-basic solutions (5.5 ⩽ pH ⩽ 8.5; H 2O–S–NaOH) over a wide range of sulfur concentrations (0.2 < ΣS < 3.6 mol/kg), in agreement with previous solubility studies. Our results provide the first direct determination of this species structure, in which two sulfur atoms are in a linear geometry around Au I at an average distance of 2.29 ± 0.01 Å. At acidic conditions (1.5 ⩽ pH ⩽ 5.0; H 2O–S–Na 2SO 4–H 2SO 4), the Au atomic environment determined by XAFS is similar to that in neutral solutions. These findings, together with measured high Au solubilities, are inconsistent with the predominance of the gold hydrogensulfide Au(HS) 0 complex suggested by recent solubility studies. Our spectroscopic data and quantum-chemical calculations imply the formation of species composed of linear S–Au–S moieties, like the neutral [H 2S–Au–SH] complex. This species may account for the elevated Au solubilities in acidic fluids and vapors with H 2S concentrations higher than 0.1–0.2 mol/kg. However, because of the complex sulfur speciation in acidic solutions that involves sulfite, thiosulfate and polysulfide species, the formation of Au I complexes with these ligands (e.g., AuHS(SO 2) 0, Au(HS 2O 3) 2 −, Au(HS n ) 2 −) cannot be ruled out. The existence of such species may significantly enhance Au transport by high T–P acidic ore-forming fluids and vapors, responsible for the formation of a major part of the gold resources on Earth.
AbstractList Despite the common belief that Au I complexes with hydrogen sulfide ligands (H 2S/HS −) are the major carriers of gold in natural hydrothermal fluids, their identity, structure and stability are still subjects of debate. Here we present the first in situ measurement, using X-ray absorption fine structure (XAFS) spectroscopy, of the stability and structure of aqueous Au I–S complexes at temperatures and pressures ( T–P) typical of natural sulfur-rich ore-forming fluids. The solubility of native gold and the local atomic structure around the dissolved metal in S–NaOH–Na 2SO 4–H 2SO 4 aqueous solutions were characterized at temperatures 200–450 °C and pressures 300–600 bar using an X-ray cell that allows simultaneous measurement of the absolute concentration of the absorbing atom (Au) and its local atomic environment in the fluid phase. Structural and solubility data obtained from XAFS spectra, combined with quantum-chemical calculations of species geometries, show that gold bis(hydrogensulfide) Au(HS) 2 − is the dominant Au species in neutral-to-basic solutions (5.5 ⩽ pH ⩽ 8.5; H 2O–S–NaOH) over a wide range of sulfur concentrations (0.2 < ΣS < 3.6 mol/kg), in agreement with previous solubility studies. Our results provide the first direct determination of this species structure, in which two sulfur atoms are in a linear geometry around Au I at an average distance of 2.29 ± 0.01 Å. At acidic conditions (1.5 ⩽ pH ⩽ 5.0; H 2O–S–Na 2SO 4–H 2SO 4), the Au atomic environment determined by XAFS is similar to that in neutral solutions. These findings, together with measured high Au solubilities, are inconsistent with the predominance of the gold hydrogensulfide Au(HS) 0 complex suggested by recent solubility studies. Our spectroscopic data and quantum-chemical calculations imply the formation of species composed of linear S–Au–S moieties, like the neutral [H 2S–Au–SH] complex. This species may account for the elevated Au solubilities in acidic fluids and vapors with H 2S concentrations higher than 0.1–0.2 mol/kg. However, because of the complex sulfur speciation in acidic solutions that involves sulfite, thiosulfate and polysulfide species, the formation of Au I complexes with these ligands (e.g., AuHS(SO 2) 0, Au(HS 2O 3) 2 −, Au(HS n ) 2 −) cannot be ruled out. The existence of such species may significantly enhance Au transport by high T–P acidic ore-forming fluids and vapors, responsible for the formation of a major part of the gold resources on Earth.
Despite the common belief that Au(I) complexes with hydrogen sulfide ligands (H(2)S/HS(-)) are the major carriers of gold in natural hydrothermal fluids, their identity, structure and stability are still subjects of debate. Here we present the first in situ measurement, using X-ray absorption fine structure (XAFS) spectroscopy, of the stability and structure of aqueous Au(I)-S complexes at temperatures and pressures (T-P) typical of natural sulfur-rich ore-forming fluids. The solubility of native gold and the local atomic structure around the dissolved metal in S-NaOH-Na(2)SO(4)-H(2)SO(4) aqueous solutions were characterized at temperatures 200-450 'C and pressures 300-600 bar using an X-ray cell that allows simultaneous measurement of the absolute concentration of the absorbing atom (Au) and its local atomic environment in the fluid phase. Structural and solubility data obtained from XAFS spectra, combined with quantum-chemical calculations of species geometries, show that gold bis(hydrogensulfide) Au(HS)(2)(-) is the dominant Au species in neutral-to-basic solutions (5.5 [less-than-or-equals, slant] pH [less-than-or- equals, slant] 8.5; H(2)O-S-NaOH) over a wide range of sulfur concentrations (0.2 < [sigma]S < 3.6 mol/kg), in agreement with previous solubility studies. Our results provide the first direct determination of this species structure, in which two sulfur atoms are in a linear geometry around Au(I) at an average distance of 2.29 +/- 0.01 Aa. At acidic conditions (1.5 [less-than-or-equals, slant] pH [less-than-or- equals, slant] 5.0; H(2)O-S-Na(2)SO(4)-H(2)SO(4)), the Au atomic environment determined by XAFS is similar to that in neutral solutions. These findings, together with measured high Au solubilities, are inconsistent with the predominance of the gold hydrogensulfide Au(HS)(0) complex suggested by recent solubility studies. Our spectroscopic data and quantum-chemical calculations imply the formation of species composed of linear S-Au-S moieties, like the neutral [H(2)S-Au-SH] complex. This species may account for the elevated Au solubilities in acidic fluids and vapors with H(2)S concentrations higher than 0.1-0.2 mol/kg. However, because of the complex sulfur speciation in acidic solutions that involves sulfite, thiosulfate and polysulfide species, the formation of Au(I) complexes with these ligands (e.g., AuHS(SO(2))(0), Au(HS(2)O(3))(2)(-), Au(HS(n)))(2)(-@) cannot be ruled out. The existence of such species may significantly enhance Au transport by high T-P acidic ore-forming fluids and vapors, responsible for the formation of a major part of the gold resources on Earth.
Author Hazemann, Jean-Louis
Proux, Olivier
Pokrovski, Gleb S.
Tagirov, Boris R.
Schott, Jacques
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  givenname: Jean-Louis
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  organization: Observatoire des Sciences de l’Univers de Grenoble, CNRS, 414 rue de la piscine, F-38400 St Martin d’Hères, France
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Issue 18
Keywords gold
XAFS spectroscopy
quantum- 25 chemical modeling
hydrothermal fluid
Au-S complexes
sulfur
thermodynamic properties
Language English
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Snippet Despite the common belief that Au I complexes with hydrogen sulfide ligands (H 2S/HS −) are the major carriers of gold in natural hydrothermal fluids, their...
Despite the common belief that Au(I) complexes with hydrogen sulfide ligands (H(2)S/HS(-)) are the major carriers of gold in natural hydrothermal fluids, their...
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Title A new view on gold speciation in sulfur-bearing hydrothermal fluids from in situ X-ray absorption spectroscopy and quantum-chemical modeling
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