Scientific Reports (Mar 2022)

Mercury goes Solid at room temperature at nanoscale and a potential Hg waste storage

  • N. Kana,
  • R. Morad,
  • M. Akbari,
  • M. Henini,
  • J. Niemela,
  • F. Hacque,
  • A. Gibaud,
  • M. Maaza

DOI
https://doi.org/10.1038/s41598-022-06857-6
Journal volume & issue
Vol. 12, no. 1
pp. 1 – 9

Abstract

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Abstract While room temperature bulk mercury is liquid, it is solid in its nano-configuration (Ønano-Hg ≤ 2.5 nm). Conjugating the nano-scale size effect and the Laplace driven surface excess pressure, Hg nanoparticles of Ønano-Hg ≤ 2.4 nm embedded in a 2-D turbostratic Boron Nitride (BN) host matrix exhibited a net crystallization at room temperature via the experimentally observed (101) and (003) diffraction Bragg peaks of the solid Hg rhombohedral α-phase. The observed crystallization is correlated to a surface atomic ordering of 7 to 8 reticular atomic plans of the rhombohedral α-phase. Such a novelty of size effect on phase transition phenomena in Hg is conjugated to a potential Hg waste storage technology. Considering the vapor pressure of bulk Hg, Room Temperature (RT) Solid nano-Hg confinement could represent a potential green approach of Hg waste storage derived from modern halogen efficient light technology.