npj 2D Materials and Applications (Feb 2021)

Two-dimensional iodine-monofluoride epitaxy on WSe2

  • Yung-Chang Lin,
  • Sungwoo Lee,
  • Yueh-Chiang Yang,
  • Po-Wen Chiu,
  • Gun-Do Lee,
  • Kazu Suenaga

DOI
https://doi.org/10.1038/s41699-021-00201-8
Journal volume & issue
Vol. 5, no. 1
pp. 1 – 6

Abstract

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Abstract Interhalogen compounds (IHCs) are extremely reactive molecules used for halogenation, catalyst, selective etchant, and surface modification. Most of the IHCs are unstable at room temperature especially for the iodine-monofluoride (IF) whose structure is still unknown. Here we demonstrate an unambiguous observation of two-dimensional (2D) IF bilayer grown on the surface of WSe2 by using scanning transmission electron microscopy and electron energy loss spectroscopy. The bilayer IF shows a clear hexagonal lattice and robust epitaxial relationship with the WSe2 substrate. Despite the IF is known to sublimate at −14 °C and has never found as a solid form in the ambient condition, but surprisingly it is found stabilized on a suitable substrate and the stabilized structure is supported by a density functional theory. This 2D form of IHC is actually a byproduct during a chemical vapor deposition growth of WSe2 in the presence of alkali metal halides as a growth promoter and requires immediate surface passivation to sustain. This work points out a great possibility to produce 2D structures that are unexpected to be crystallized or cannot be obtained by a simple exfoliation but can be grown only on a certain substrate.