npj 2D Materials and Applications (Mar 2023)

Two-dimensional single crystal monoclinic gallium telluride on silicon substrate via transformation of epitaxial hexagonal phase

  • Eugenio Zallo,
  • Andrea Pianetti,
  • Alexander S. Prikhodko,
  • Stefano Cecchi,
  • Yuliya S. Zaytseva,
  • Alessandro Giuliani,
  • Malte Kremser,
  • Nikolai I. Borgardt,
  • Jonathan J. Finley,
  • Fabrizio Arciprete,
  • Maurizia Palummo,
  • Olivia Pulci,
  • Raffaella Calarco

DOI
https://doi.org/10.1038/s41699-023-00390-4
Journal volume & issue
Vol. 7, no. 1
pp. 1 – 10

Abstract

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Abstract Van der Waals (vdW) epitaxial growth of large-area and stable two-dimensional (2D) materials of high structural quality on crystalline substrates is crucial for the development of novel device technologies. 2D gallium monochalcogenides with low in-plane symmetry stand out among the layered semiconductor materials family for next-generation optoelectronic and energy conversion applications. Here, we demonstrate the formation of large-area, single crystal and optically active 2D monoclinic gallium telluride (m-GaTe) on silicon substrate via rapid thermal annealing induced phase transformation of vdW epitaxial metastable hexagonal gallium telluride (h-GaTe). Stabilization of multilayer h-GaTe on Si occurs due to the role of the first layer symmetry together with efficient GaTe surface passivation. Moreover, we show that the phase transformation of h-GaTe to m-GaTe is accompanied by the strain relaxation between Si substrate and GaTe. This work opens the way to the fabrication of single-crystal 2D anisotropic semiconductors on standard crystalline wafers that are difficult to be obtained by epitaxial methods.