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arxiv: 2405.09371 · v2 · pith:QA4J725V · submitted 2024-05-15 · cond-mat.mtrl-sci · cond-mat.mes-hall· physics.app-ph

Formation of Beta-Indium Selenide Layers Grown via Selenium Passivation of InP(111)B Substrate

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classification cond-mat.mtrl-sci cond-mat.mes-hallphysics.app-ph
keywords in2se3layersnovelsingle-phaseapproachelectricalferroelectricitygrowth
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Indium selenide, In2Se3, has recently attracted growing interest due to its novel properties, including room temperature ferroelectricity, outstanding photoresponsivity, and exotic in-plane ferroelectricity, which open up new regimes for next generation electronics. In2Se3 also provides the important advantage of tuning the electrical properties of ultra-thin layers with an external electrical and magnetic field, making it a potential platform to study novel two-dimensional physics. Yet, In2Se3 has many different polymorphs, and it has been challenging to synthesize single-phase material, especially using scalable growth methods, as needed for technological applications. In this paper, we use aberration-corrected scanning transmission electron microscopy to characterize the microstructure of twin-free single-phase ultra-thin layers of beta-In2Se3, prepared by a unique molecular beam epitaxy approach. We emphasize features of the In2Se3 layer and In2Se3/InP interface which provide evidence for understanding the growth mechanism of the single-phase In2Se3. This novel approach for forming high-quality twin-free single phase two-dimensional crystals on InP substrates is likely to be applicable to other technologically important substrates.

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