Synthesis of Highly Anisotropic Semiconducting GaTe Nanomaterials and Emerging Properties Enabled by Epitaxy
Hui Cai, Bin Chen, Gang Wang, Emmanuel Soignard, Afsaneh Khosravi,, Marco Manca, Xavier Marie, Shery Chang, Bernhard Urbaszek, and Sefaattin, Tongay

TL;DR
This paper reports the successful synthesis of highly anisotropic GaTe nanomaterials on various substrates using vapor transport, revealing unique optical and structural properties through advanced microscopy and spectroscopy techniques.
Contribution
It introduces a novel vapor phase growth method for pseudo-1D GaTe on multiple substrates and provides atomic-scale insights into their anisotropic properties.
Findings
GaTe nanomaterials exhibit highly anisotropic optical responses.
Defect-related localized emission peaks are observed below the band gap.
Samples on sapphire show enhanced and narrow emission features.
Abstract
Pseudo-one dimensional (pseudo-1D) materials are a new-class of materials where atoms are arranged in chain like structures in two-dimensions (2D). Examples include recently discovered black phosphorus, ReS2 and ReSe2 from transition metal dichalcogenides, TiS3 and ZrS3 from transition metal trichalcogenides and most recently GaTe. The presence of structural anisotropy impacts their physical properties and leads to direction dependent light-matter interactions, dichroic optical responses, high mobility channels, and anisotropic thermal conduction. Despite the numerous reports on the vapor phase growth of isotropic TMDCs and post transition metal chalcogenides such as MoS2 and GaSe, the synthesis of pseudo-1D materials is particularly difficult due to the anisotropy in interfacial energy, which stabilizes dendritic growth rather than single crystalline growth with well-defined…
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