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:10.1038/s41699-023-00390-4

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

Affiliations

Eugenio Zallo: Walter-Schottky-Institut and TUM School of Natural Sciences, Technische Universität München
Andrea Pianetti: Dipartimento di Fisica, Università di Roma “Tor Vergata”
Alexander S. Prikhodko: Electron Microscopy Lab, National Research University of Electronic Technology (MIET)
Stefano Cecchi: Department of Materials Science, University of Milano-Bicocca
Yuliya S. Zaytseva: Electron Microscopy Lab, National Research University of Electronic Technology (MIET)
Alessandro Giuliani: Dipartimento di Fisica, Università di Roma “Tor Vergata”, and INFN
Malte Kremser: Walter-Schottky-Institut and TUM School of Natural Sciences, Technische Universität München
Nikolai I. Borgardt: Electron Microscopy Lab, National Research University of Electronic Technology (MIET)
Jonathan J. Finley: Walter-Schottky-Institut and TUM School of Natural Sciences, Technische Universität München
Fabrizio Arciprete: Dipartimento di Fisica, Università di Roma “Tor Vergata”
Maurizia Palummo: Dipartimento di Fisica, Università di Roma “Tor Vergata”, and INFN
Olivia Pulci: Dipartimento di Fisica, Università di Roma “Tor Vergata”, and INFN
Raffaella Calarco: Institute for Microelectronics and Microsystems (IMM), Consiglio nazionale delle ricerche (CNR)

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.

Published in npj 2D Materials and Applications

ISSN: 2397-7132 (Online)
Publisher: Nature Portfolio
Country of publisher: United Kingdom
LCC subjects: Technology: Electrical engineering. Electronics. Nuclear engineering: Materials of engineering and construction. Mechanics of materials; Science: Chemistry
Website: https://www.nature.com/npj2dmaterials/

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