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Band gap closure, incommensurability and molecular dissociation of dense chlorine.

Philip Dalladay-SimpsonJack BinnsMiriam Peña-AlvarezMary-Ellen DonnellyEran GreenbergVitali PrakapenkaXiao-Jia ChenEugene GregoryanzRoss T Howie
Published in: Nature communications (2019)
Diatomic elemental solids are highly compressible due to the weak interactions between molecules. However, as the density increases the intra- and intermolecular distances become comparable, leading to a range of phenomena, such as structural transformation, molecular dissociation, amorphization, and metallisation. Here we report, following the crystallization of chlorine at 1.15(30) GPa into an ordered orthorhombic structure (oC8), the existence of a mixed-molecular structure (mC8, 130(10)-241(10) GPa) and the concomitant observation of a continuous band gap closure, indicative of a transformation into a metallic molecular form around 200(10) GPa. The onset of dissociation of chlorine is identified by the observation of the incommensurate structure (i-oF4) above 200(10) GPa, before finally adopting a monatomic form (oI2) above 256(10) GPa.
Keyphrases
  • drinking water
  • single molecule
  • electron transfer
  • energy transfer