Add to ORKGVanadium concentrations in planetary mantles can provide information about the conditions during early accretion and differentiation. Because V is a slightly siderophile element, it is usually assumed that any depletion would be due to core formation and metal-silicate equilibrium. However, V is typically more compatible in phases such as spinel, magnesiowuestite and garnet. Fractionation of all of these phases would cause depletions more marked than those from metal. In this paper consideration of depletions due to metal, oxide and silicate are critically evaluated
Redox-sensitive transition group elements are involved in almost all fundamental geochemical process...
International audienceVanadium (chemical symbol, V) is a d-block transition metal,silver in color, a...
We performed experiments to separate the effects of temperature, pressure and metal composition on t...
Vanadium exists in multiple valence states in silicate and oxide systems, namely V2+, V3+, V4+ and V...
Igneous and metamorphic rocks commonly contain a mineral assemblage that allows oxygen fugacity to b...
Vanadium (V) is a redox-active transition metal used widely to understand terrestrial magmatic proce...
Vanadium exists in multiple valence states in silicate and oxide systems, namelyV2þ,V3þ,V4þ and V5þ....
Experimental metal-silicate partitioning data for Ni, Co, V, Cr, Nb, Mn, Si and W were used to inves...
The redox states of planetary interiors can be inferred from the abundance, partitioning behaviour o...
The mantles of the Earth and Moon are similarly depleted in V, Cr, and Mn relative to chondritic val...
The depletion of siderophile (i.e., “iron-loving”) elements in the Earth’s mantle relative to chondr...
International audienceIn order to apply the vanadium (V) stable isotope system for studies of planet...
During the formation of the Earth’s core, all elements were fractionated between the metallic core a...
The multi-valence nature of vanadium means that its geochemical behaviour will be ƒO2-dependent, so ...
International audienceThe abundance of siderophile elements in the mantle preserves the signature of...
Redox-sensitive transition group elements are involved in almost all fundamental geochemical process...
International audienceVanadium (chemical symbol, V) is a d-block transition metal,silver in color, a...
We performed experiments to separate the effects of temperature, pressure and metal composition on t...
Vanadium exists in multiple valence states in silicate and oxide systems, namely V2+, V3+, V4+ and V...
Igneous and metamorphic rocks commonly contain a mineral assemblage that allows oxygen fugacity to b...
Vanadium (V) is a redox-active transition metal used widely to understand terrestrial magmatic proce...
Vanadium exists in multiple valence states in silicate and oxide systems, namelyV2þ,V3þ,V4þ and V5þ....
Experimental metal-silicate partitioning data for Ni, Co, V, Cr, Nb, Mn, Si and W were used to inves...
The redox states of planetary interiors can be inferred from the abundance, partitioning behaviour o...
The mantles of the Earth and Moon are similarly depleted in V, Cr, and Mn relative to chondritic val...
The depletion of siderophile (i.e., “iron-loving”) elements in the Earth’s mantle relative to chondr...
International audienceIn order to apply the vanadium (V) stable isotope system for studies of planet...
During the formation of the Earth’s core, all elements were fractionated between the metallic core a...
The multi-valence nature of vanadium means that its geochemical behaviour will be ƒO2-dependent, so ...
International audienceThe abundance of siderophile elements in the mantle preserves the signature of...
Redox-sensitive transition group elements are involved in almost all fundamental geochemical process...
International audienceVanadium (chemical symbol, V) is a d-block transition metal,silver in color, a...
We performed experiments to separate the effects of temperature, pressure and metal composition on t...