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Dynamics of self-reorganization explains passivation of silicate glasses

Author

Listed:
  • Stéphane Gin

    (CEA, DEN, DE2D, SEVT)

  • Marie Collin

    (CEA, DEN, DE2D, SEVT)

  • Patrick Jollivet

    (CEA, DEN, DE2D, SEVT)

  • Maxime Fournier

    (CEA, DEN, DE2D, SEVT)

  • Yves Minet

    (CEA, DEN, DE2D, SEVT)

  • Laurent Dupuy

    (Tescan Analytics, ZAC St Charles)

  • Thiruvilla Mahadevan

    (University of North Texas)

  • Sebastien Kerisit

    (Physical & Computational Sciences Directorate)

  • Jincheng Du

    (University of North Texas)

Abstract

Understanding the dissolution of silicate glasses and minerals from atomic to macroscopic levels is a challenge with major implications in geoscience and industry. One of the main uncertainties limiting the development of predictive models lies in the formation of an amorphous surface layer––called gel––that can in some circumstances control the reactivity of the buried interface. Here, we report experimental and simulation results deciphering the mechanisms by which the gel becomes passivating. The study conducted on a six-oxide borosilicate glass shows that gel reorganization involving high exchange rate of oxygen and low exchange rate of silicon is the key mechanism accounting for extremely low apparent water diffusivity (∼10−21 m2 s−1), which could be rate-limiting for the overall reaction. These findings could be used to improve kinetic models, and inspire the development of new molecular sieve materials with tailored properties as well as highly durable glass for application in extreme environments.

Suggested Citation

  • Stéphane Gin & Marie Collin & Patrick Jollivet & Maxime Fournier & Yves Minet & Laurent Dupuy & Thiruvilla Mahadevan & Sebastien Kerisit & Jincheng Du, 2018. "Dynamics of self-reorganization explains passivation of silicate glasses," Nature Communications, Nature, vol. 9(1), pages 1-9, December.
    • Handle: RePEc:nat:natcom:v:9:y:2018:i:1:d:10.1038_s41467-018-04511-2
    DOI: 10.1038/s41467-018-04511-2
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