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Phase transitions in natural C-O-H-N-S fluid inclusions - implications for gas mixtures and the behavior of solid H2S at low temperatures

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  • Marta Sośnicka

    (GFZ German Research Centre for Geosciences, Telegrafenberg
    Institute of Geosciences, Friedrich Schiller University Jena, Burgweg 11)

  • Volker Lüders

    (GFZ German Research Centre for Geosciences, Telegrafenberg)

Abstract

C–O–H–N–S-bearing fluids are known as one of the most challenging geochemical systems due to scarcity of available experimental data. H2S-rich fluid systems were recognized in a wide array of world-class mineral deposits and hydrocarbon reservoirs. Here we report on a nature of low-temperature (T ≥ −192 °C) phase transitions observed in natural CH4–H2S–CO2–N2–H2O fluid inclusions, which are modeled as closed thermodynamic systems and thus serve as natural micro-laboratories representative of the C–O–H–N–S system. For the first time, we document solid–solid H2S (α ↔ β ↔ γ) transitions, complex clathrates and structural transformations of solid state H2S in natural inclusion gas mixtures. The new data on Raman spectroscopic features and a complete sequence of phase transition temperatures in the gas mixtures contribute to scientific advancements in fluid geochemistry. Enhanced understanding of the phase equilibria in the C–O–H–N–S system is a prerequisite for conscientious estimation of P-T-V-X properties, necessary to model the geologic evolution of hydrocarbon and mineral systems. Our findings are a driver for the future research expeditions to extraterrestrial H2S-rich planetary systems owing to their low temperature environments.

Suggested Citation

  • Marta Sośnicka & Volker Lüders, 2021. "Phase transitions in natural C-O-H-N-S fluid inclusions - implications for gas mixtures and the behavior of solid H2S at low temperatures," Nature Communications, Nature, vol. 12(1), pages 1-15, December.
    • Handle: RePEc:nat:natcom:v:12:y:2021:i:1:d:10.1038_s41467-021-27269-6
    DOI: 10.1038/s41467-021-27269-6
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    1. Elliot Snider & Nathan Dasenbrock-Gammon & Raymond McBride & Mathew Debessai & Hiranya Vindana & Kevin Vencatasamy & Keith V. Lawler & Ashkan Salamat & Ranga P. Dias, 2020. "RETRACTED ARTICLE: Room-temperature superconductivity in a carbonaceous sulfur hydride," Nature, Nature, vol. 586(7829), pages 373-377, October.
    2. A. P. Drozdov & M. I. Eremets & I. A. Troyan & V. Ksenofontov & S. I. Shylin, 2015. "Conventional superconductivity at 203 kelvin at high pressures in the sulfur hydride system," Nature, Nature, vol. 525(7567), pages 73-76, September.
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