An enduring geological mystery concerns the missing xenon problem, referring to the abnormally low concentration of xenon compared to other noble gases in Earth’s atmosphere. Identifying mantle minerals that can capture and stabilize xenon has been a great challenge in materials physics and xenon chemistry. Here, using an advanced crystal structure search algorithm in conjunction with first-principles calculations we find reactions of xenon with recently discovered iron peroxide FeO2, forming robust xenon-iron oxides Xe2FeO2 and XeFe3O6 with significant Xe-O bonding in a wide range of pressure-temperature conditions corresponding to vast regions in Earth’s lower mantle. Calculated mass density and sound velocities validate Xe-Fe oxides as v...
The composition of Xe released from carbonaceous chondrites between 600 and 1000 C, particularly its...
International audienceNoble gas isotopes are powerful tracers of the origins of planetary volatiles,...
International audienceThe reactivity of xenon with terrestrial oxides was investigated by in situ sy...
The abnormally low concentration of xenon compared to other noble gases in Earth’s atmosphere remain...
Xenon, which is quite inert under ambient conditions, may become reactive under pressure. The possib...
The field of noble gases chemistry has witnessed amazing advances in the last decade with over 100 c...
Storage of Xe in silicate minerals has been proposed to explain the ‘Missing Xenon’ issue, i.e. the ...
International audienceXenon (Xe), the heaviest of the stable noble gases, is missing by a factor of ...
There is compelling geochemical evidence for primordial helium trapped in Earth’s lower mantle, but ...
International audienceXenon (Xe), the heaviest of the stable noble gases, is missing by a factor of ...
International audienceStorage of Xe at depth in silicate minerals has recently been proposed to expl...
International audienceWhile the field of noble gas reactivity essentially belongs to chemistry, Eart...
Xenon (Xe), the heaviest of the stable noble gases, is missing by a factor of 20 relatively to other...
© The Author(s), 2021. This article is distributed under the terms of the Creative Commons Attributi...
Xenon (Xe) is the heaviest element among the stable noble gases series. This element undergoes a geo...
The composition of Xe released from carbonaceous chondrites between 600 and 1000 C, particularly its...
International audienceNoble gas isotopes are powerful tracers of the origins of planetary volatiles,...
International audienceThe reactivity of xenon with terrestrial oxides was investigated by in situ sy...
The abnormally low concentration of xenon compared to other noble gases in Earth’s atmosphere remain...
Xenon, which is quite inert under ambient conditions, may become reactive under pressure. The possib...
The field of noble gases chemistry has witnessed amazing advances in the last decade with over 100 c...
Storage of Xe in silicate minerals has been proposed to explain the ‘Missing Xenon’ issue, i.e. the ...
International audienceXenon (Xe), the heaviest of the stable noble gases, is missing by a factor of ...
There is compelling geochemical evidence for primordial helium trapped in Earth’s lower mantle, but ...
International audienceXenon (Xe), the heaviest of the stable noble gases, is missing by a factor of ...
International audienceStorage of Xe at depth in silicate minerals has recently been proposed to expl...
International audienceWhile the field of noble gas reactivity essentially belongs to chemistry, Eart...
Xenon (Xe), the heaviest of the stable noble gases, is missing by a factor of 20 relatively to other...
© The Author(s), 2021. This article is distributed under the terms of the Creative Commons Attributi...
Xenon (Xe) is the heaviest element among the stable noble gases series. This element undergoes a geo...
The composition of Xe released from carbonaceous chondrites between 600 and 1000 C, particularly its...
International audienceNoble gas isotopes are powerful tracers of the origins of planetary volatiles,...
International audienceThe reactivity of xenon with terrestrial oxides was investigated by in situ sy...