Add to ORKGNew, precise data on the solubilities of Ni, Co, and Mo in silicate melts at 1400 C and fO2 from IW to IW-2 are presented. The results suggest NiO, CoO as stable species in the melt. No evidence for metallic Ni or Co was found. Equilibrium was ensured by reversals with initially high Ni and Co in the glass. Mo appears to change oxidation state at IW-1, from MoO3 to MoO2. Metal-silicate partition coefficients calculated from these data and recent data on Pd indicate similar partition coefficients for Pd and Mo at the conditions of core formation. This unexpected result constrains models of core formation in the Earth
Experimental metal-silicate partitioning data for Ni, Co, V, Cr, Nb, Mn, Si and W were used to inves...
A series of experiments with silicate melts doped with transition element oxides was carried out at ...
The depletion of the siderophile elements in the Earth's upper mantle relative to the chondritic met...
International audienceSuperliquidus metal-silicate partitioning was investigated for a number of mod...
The interior structure of Earth, particularly the metal core, is responsible for the core dynamo and...
Understanding Earth’s accretion and primary differentiation is a long-standing goal of geology...
We have determined the liquid metal-liquid silicate partitioning of Ni, Co, Mo, W, V, Cr and Nb at 1...
We present the results of new partitioning experiments between metal and silicate melts for a series...
International audienceThe pattern of siderophile (iron-loving) element abundance in the silicate por...
The differences in FeO mantle contents and core masses between the terrestrial planets suggest the o...
International audienceThis study investigates the metal-silicate partitioning of Pb and U (DPb and D...
Several scenarios set forth to explain the siderophile element abundance patterns in the mantles of ...
AbstractThe distributions of major and minor elements in Earth’s core and mantle were primarily esta...
Since approximately 1990 high pressure and temperature (PT) experiments on metal-silicate systems ha...
The high abundance of both nickel and cobalt and the chondritic Ni/Co ratio found in samples derived...
Experimental metal-silicate partitioning data for Ni, Co, V, Cr, Nb, Mn, Si and W were used to inves...
A series of experiments with silicate melts doped with transition element oxides was carried out at ...
The depletion of the siderophile elements in the Earth's upper mantle relative to the chondritic met...
International audienceSuperliquidus metal-silicate partitioning was investigated for a number of mod...
The interior structure of Earth, particularly the metal core, is responsible for the core dynamo and...
Understanding Earth’s accretion and primary differentiation is a long-standing goal of geology...
We have determined the liquid metal-liquid silicate partitioning of Ni, Co, Mo, W, V, Cr and Nb at 1...
We present the results of new partitioning experiments between metal and silicate melts for a series...
International audienceThe pattern of siderophile (iron-loving) element abundance in the silicate por...
The differences in FeO mantle contents and core masses between the terrestrial planets suggest the o...
International audienceThis study investigates the metal-silicate partitioning of Pb and U (DPb and D...
Several scenarios set forth to explain the siderophile element abundance patterns in the mantles of ...
AbstractThe distributions of major and minor elements in Earth’s core and mantle were primarily esta...
Since approximately 1990 high pressure and temperature (PT) experiments on metal-silicate systems ha...
The high abundance of both nickel and cobalt and the chondritic Ni/Co ratio found in samples derived...
Experimental metal-silicate partitioning data for Ni, Co, V, Cr, Nb, Mn, Si and W were used to inves...
A series of experiments with silicate melts doped with transition element oxides was carried out at ...
The depletion of the siderophile elements in the Earth's upper mantle relative to the chondritic met...