Physical Review Research (Jun 2020)

Mott phase in a van der Waals transition-metal halide at single-layer limit

  • Lang Peng,
  • Jianzhou Zhao,
  • Min Cai,
  • Gui-Yuan Hua,
  • Zhen-Yu Liu,
  • Hui-Nan Xia,
  • Yuan Yuan,
  • Wen-Hao Zhang,
  • Gang Xu,
  • Ling-Xiao Zhao,
  • Zeng-Wei Zhu,
  • Tao Xiang,
  • Ying-Shuang Fu

DOI
https://doi.org/10.1103/PhysRevResearch.2.023264
Journal volume & issue
Vol. 2, no. 2
p. 023264

Abstract

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Two-dimensional materials offer opportunities for unravelling unprecedented ordered states at the single-layer limit. Among such ordered states, the Mott phase is rarely explored. Here we study the Mott phase in van der Waals chromium (II) iodide (CrI_{2}) films. High-quality CrI_{2} films with an atomically flat surface and macro size are grown on graphitized 6H-SiC(0001) substrate by molecular beam epitaxy. By in situ low-temperature scanning tunneling microscopy and spectroscopy, we reveal that the film has a band gap as large as ∼3.2eV, which is nearly thickness independent. Density functional plus dynamic mean-field theory calculations suggest that CrI_{2} films may be a strong Mott insulator with a ferromagnetically ordered ground state. The Mott phase is corroborated by the spectral band splitting and spectral weight transfer at charge dopants that is consistent with the extended Hubbard model. Our study provides a platform for studying correlated electron states at the single-layer limit.