Few-Layer Antimonene by Liquid-Phase Exfoliation

Carlos Gibaja; David Rodriguez-San-Miguel; Pablo Ares; Julio Gomez-Herrero; Maria Varela; Roland Gillen; Janina Maultzsch; Frank Hauke; Andreas Hirsch; Gonzalo Abellan; Felix Zamora

doi:10.1002/anie.201605298

Few-Layer Antimonene by Liquid-Phase Exfoliation

Carlos Gibaja, David Rodriguez-San-Miguel, Pablo Ares, Julio Gomez-Herrero, Maria Varela, Roland Gillen, Janina Maultzsch, Frank Hauke, Andreas Hirsch, Gonzalo Abellan, Felix Zamora

Research output: Contribution to journal › Article › peer-review

Abstract

We report on a fast and simple method to produce highly stable isopropanol/water (4:1) suspensions of few-layer antimonene by liquid-phase exfoliation of antimony crystals in a process that is assisted by sonication but does not require the addition of any surfactant. This straightforward method generates dispersions of few-layer antimonene suitable for on-surface isolation. Analysis by atomic force microscopy, scanning transmission electron microscopy, and electron energy loss spectroscopy confirmed the formation of high-quality few-layer antimonene nanosheets with large lateral dimensions. These nanolayers are extremely stable under ambient conditions. Their Raman signals are strongly thickness-dependent, which was rationalized by means of density functional theory calculations.

Original language	English
Pages (from-to)	14343-14347
Journal	ANGEWANDTE CHEMIE-INTERNATIONAL EDITION
Volume	55
Issue number	46
Early online date	16 Aug 2016
DOIs	https://doi.org/10.1002/anie.201605298
Publication status	Published - 7 Nov 2016

Keywords

antimonene
atomic force microscopy
liquid-phase exfoliation
Raman spectroscopy
two-dimensional materials

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10.1002/anie.201605298

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abstract = "We report on a fast and simple method to produce highly stable isopropanol/water (4:1) suspensions of few-layer antimonene by liquid-phase exfoliation of antimony crystals in a process that is assisted by sonication but does not require the addition of any surfactant. This straightforward method generates dispersions of few-layer antimonene suitable for on-surface isolation. Analysis by atomic force microscopy, scanning transmission electron microscopy, and electron energy loss spectroscopy confirmed the formation of high-quality few-layer antimonene nanosheets with large lateral dimensions. These nanolayers are extremely stable under ambient conditions. Their Raman signals are strongly thickness-dependent, which was rationalized by means of density functional theory calculations.",

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T1 - Few-Layer Antimonene by Liquid-Phase Exfoliation

AU - Gibaja, Carlos

AU - Rodriguez-San-Miguel, David

AU - Ares, Pablo

AU - Gomez-Herrero, Julio

AU - Varela, Maria

AU - Gillen, Roland

AU - Maultzsch, Janina

AU - Hauke, Frank

AU - Hirsch, Andreas

AU - Abellan, Gonzalo

AU - Zamora, Felix

PY - 2016/11/7

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N2 - We report on a fast and simple method to produce highly stable isopropanol/water (4:1) suspensions of few-layer antimonene by liquid-phase exfoliation of antimony crystals in a process that is assisted by sonication but does not require the addition of any surfactant. This straightforward method generates dispersions of few-layer antimonene suitable for on-surface isolation. Analysis by atomic force microscopy, scanning transmission electron microscopy, and electron energy loss spectroscopy confirmed the formation of high-quality few-layer antimonene nanosheets with large lateral dimensions. These nanolayers are extremely stable under ambient conditions. Their Raman signals are strongly thickness-dependent, which was rationalized by means of density functional theory calculations.

AB - We report on a fast and simple method to produce highly stable isopropanol/water (4:1) suspensions of few-layer antimonene by liquid-phase exfoliation of antimony crystals in a process that is assisted by sonication but does not require the addition of any surfactant. This straightforward method generates dispersions of few-layer antimonene suitable for on-surface isolation. Analysis by atomic force microscopy, scanning transmission electron microscopy, and electron energy loss spectroscopy confirmed the formation of high-quality few-layer antimonene nanosheets with large lateral dimensions. These nanolayers are extremely stable under ambient conditions. Their Raman signals are strongly thickness-dependent, which was rationalized by means of density functional theory calculations.

KW - antimonene

KW - atomic force microscopy

KW - liquid-phase exfoliation

KW - Raman spectroscopy

KW - two-dimensional materials

U2 - 10.1002/anie.201605298

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ER -

Few-Layer Antimonene by Liquid-Phase Exfoliation

Abstract

Keywords

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