12 research outputs found
Exceptional Concentrations of Gold Nanoparticles in 1,7 Ga Fluid Inclusions From the Kola Superdeep Borehole, Northwest Russia
In the drill core of the Kola super-deep borehole (SG-3, 12,262 m depth) gold-bearing rocks of Archaean age have been located at depths of 9,500 to 11,000 m. In veins, between 9,052 and 10,744 m, within this gold zone, quartz contains fluid inclusions with gold nanoparticles. There are 4 types of fluid inclusions (1) gas inclusions of dense CO2, (2) liquid-vapor two-phase aqueous inclusions, (3) three-phase inclusions with NaCl daughter crystals, and (4) CO2-aqueous inclusions. In all inclusion types, there are extremely high concentrations of gold. The highest gold concentrations were found in the type 3 and 4 fluid inclusions with an average concentration of c. 750 ppm and may be as high as 6,000 ppm. The presence of gold as nanoparticles in the solutions of these fluid inclusions was determined by optical and spectroscopic methods. We suggest that these fluids could be a precursor of “orogenic gold fluids” which, at the gold concentrations determined, would reduce the requirements for large volumes of metamorphic fluids to form orogenic ore deposits. Further, as nanoparticles, gold could be transported in larger amounts than in true solution
Exceptionally Au-rich mid-crustal fluids from the Kola super deep borehole
In the drillcore of the Kola super-deep borehole(SG-3, 12262m depth) gold bearing rocks of Archaean age have been located at depths of 9500 to 11000 m. Quartz veins, between 9052 and 10744 m, within this gold zone, contain fluid inclusions with exceptional concentrations of gold, which are present as nanoparticles. There are 4 types of fluid inclusions (1) gas inclusions of dense CO2, (2) liquid-vapour two-phase aqueous inclusions, (3) three-phase inclusions with NaCl daughter crystals, and(4)CO2-aqueous inclusions. In all inclusion types, there are extremely high concentrations of Au. In the high salinity FIs the average concentration isc. 750 ppm and may be as high as 6000 ppm. We suggest these fluids could be a precursor of “Orogenic gold fluids” which, at the Au concentrations determined, would reduce the requirements for large volumes of metamorphic fluids to form orogenic ore deposits. The gold is currently present as colloids and indicates that in this form it is possible to transport greater amounts of gold than in true solutio
van der Waals metal-organic framework as an excitonic material for advanced photonics
\u3cp\u3evan der Waals metal-organic framework (MOF) is used as an excitonic material for advanced photonics. van der Waals supports different types of excitons and provides a dimensional confinement effect, which is especially pronounced for 2D structures and strongly changes the exciton parameters. The restrictions can also be overcome by creating microcavities with Bragg mirrors made of atomically thin organic semiconductors inside. Such a device is an elegant solution for manipulation of exciton states by light, but its construction remains highly sophisticated.\u3c/p\u3