Tunability of topological edge states in germanene at room temperature

Dennis J. Klaassen; Ilias Boutis; Carolien Castenmiller; Pantelis Bampoulis

doi:10.1039/d4tc02367f

Tunability of topological edge states in germanene at room temperature

Dennis J. Klaassen, Ilias Boutis, Carolien Castenmiller, Pantelis Bampoulis^*

^*Corresponding author for this work

Physics of Interfaces and Nanomaterials

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

2 Citations (Scopus)

103 Downloads (Pure)

Abstract

Germanene is a two-dimensional topological insulator with a large topological band gap. For its use in low-energy electronics, such as topological field effect transistors and interconnects, it is essential that its topological edge states remain intact at room temperature. In this study, we examine these properties in germanene using scanning tunneling microscopy and spectroscopy at 300 K and compare the results with data obtained at 77 K. Our findings show that the edge states persist at room temperature, although thermal effects cause smearing of the bulk band gap. Additionally, we demonstrate that, even at room temperature, applying an external perpendicular electric field switches the topological states of germanene off. These findings indicate that germanene's topological properties can be maintained and controlled at room temperature, making it a promising material for low-energy electronic applications.

Original language	English
Pages (from-to)	15975-15980
Number of pages	6
Journal	Journal of materials chemistry C
Volume	12
Issue number	39
Early online date	27 Aug 2024
DOIs	https://doi.org/10.1039/d4tc02367f
Publication status	Published - 21 Oct 2024

Keywords

UT-Hybrid-D

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10.1039/d4tc02367fLicence: CC BY

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title = "Tunability of topological edge states in germanene at room temperature",

abstract = "Germanene is a two-dimensional topological insulator with a large topological band gap. For its use in low-energy electronics, such as topological field effect transistors and interconnects, it is essential that its topological edge states remain intact at room temperature. In this study, we examine these properties in germanene using scanning tunneling microscopy and spectroscopy at 300 K and compare the results with data obtained at 77 K. Our findings show that the edge states persist at room temperature, although thermal effects cause smearing of the bulk band gap. Additionally, we demonstrate that, even at room temperature, applying an external perpendicular electric field switches the topological states of germanene off. These findings indicate that germanene's topological properties can be maintained and controlled at room temperature, making it a promising material for low-energy electronic applications.",

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AU - Klaassen, Dennis J.

AU - Boutis, Ilias

AU - Castenmiller, Carolien

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N2 - Germanene is a two-dimensional topological insulator with a large topological band gap. For its use in low-energy electronics, such as topological field effect transistors and interconnects, it is essential that its topological edge states remain intact at room temperature. In this study, we examine these properties in germanene using scanning tunneling microscopy and spectroscopy at 300 K and compare the results with data obtained at 77 K. Our findings show that the edge states persist at room temperature, although thermal effects cause smearing of the bulk band gap. Additionally, we demonstrate that, even at room temperature, applying an external perpendicular electric field switches the topological states of germanene off. These findings indicate that germanene's topological properties can be maintained and controlled at room temperature, making it a promising material for low-energy electronic applications.

AB - Germanene is a two-dimensional topological insulator with a large topological band gap. For its use in low-energy electronics, such as topological field effect transistors and interconnects, it is essential that its topological edge states remain intact at room temperature. In this study, we examine these properties in germanene using scanning tunneling microscopy and spectroscopy at 300 K and compare the results with data obtained at 77 K. Our findings show that the edge states persist at room temperature, although thermal effects cause smearing of the bulk band gap. Additionally, we demonstrate that, even at room temperature, applying an external perpendicular electric field switches the topological states of germanene off. These findings indicate that germanene's topological properties can be maintained and controlled at room temperature, making it a promising material for low-energy electronic applications.

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Tunability of topological edge states in germanene at room temperature

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