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Sverjensky’s research areas include aqueous geochemistry, mineral surface geochemistry, thermodynamics, and water-rock interaction. In 2005 he started a collaboration at the Carnegie Institution of Washington in astrobiology, addressing the role of mineral-water interfacial reactions in the origin of life and the role of hydrothermal fluids. They also developed a historical approach to the appearance of minerals on Earth called mineral evolution.
Sverjensky is investigating the surface environments on early Earth using theoretical models of weathering and element mobility. In 2012 he launched a new field of research through the Deep Carbon Observatory investigating the role of water in deep Earth. Current areas of investigation include the origins of fluids in diamonds, the species and transport of carbon, sulfur and nitrogen in subduction zones, and the role of fluids in oxidation of mantle wedges.
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Earth and Planetary Science Letters (2024): 118672
Geochemistry, Geophysics, Geosystemsno. 10 (2023): n/a-n/a
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Chemical Geology (2023): 121489-121489
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Goldschmidt2022 abstracts (2022)
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Goldschmidt2022 abstracts (2022)
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S. Tumiati,S. Recchia,L. Remusat,C. Tiraboschi,D. A. Sverjensky, C. E. Manning,A. Vitale Brovarone,A. Boutier,D. Spanu, S. Poli
Goldschmidt2021 abstractsno. 1 (2022): 2909-2909
Goldschmidt2021 abstracts (2021)
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