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Review Article | Open Access

Colloidal nanocrystals: Viable model systems for electronic quantum materials?

Jara F. VliemJesper R. MoesIngmar SwartDaniel Vanmaekelbergh( )
Debye Institute for Nanomaterials Science, Department of Chemistry, University of Utrecht, 3584 CS Utrecht, the Netherlands
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Abstract

The field of colloidal nanocrystals has witnessed enormous progress in the last three decades. For many families of nanocrystals, wet-chemical syntheses have been developed that allow control over the crystal shape and dimensions, from the three-dimensional down to the zero-dimensional case. Additionally, careful control of surface chemistry has enabled the prevention of non-radiative recombination, thus allowing the detailed study of confined charge carriers and excitons. This has led to a vast amount of applications of nanocrystals in displays, labels, and lighting. Here, we discuss how this expertise could benefit the rapidly advancing field of quantum materials, where the coherence of electronic wave functions is key. We demonstrate that colloidal two-dimensional nanocrystals can serve as excellent model systems for studying topological phase transitions, particularly in the case of quantum spin Hall and topological crystalline insulators. We aim to inspire researchers with strong chemical expertise to explore the exciting field of quantum materials.

Graphical Abstract

Can colloidal nanocrystals form viable model systems for electronic quantum materials? We explore how chemical knowledge can aid in understanding the underlying physics of topological insulators, paving the way for devices based on the quantum spin Hall effect.

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Nano Research
Pages 10511-10524

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Cite this article:
Vliem JF, Moes JR, Swart I, et al. Colloidal nanocrystals: Viable model systems for electronic quantum materials?. Nano Research, 2024, 17(12): 10511-10524. https://doi.org/10.1007/s12274-024-6986-6
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Received: 10 July 2024
Revised: 19 September 2024
Accepted: 05 October 2024
Published: 12 November 2024
© The Author(s) 2024

Copyright: © 2024 by the author(s). This article is an open access article distributed under Creative Commons Attribution License (CC BY 4.0), visit https://creativecommons.org/licenses/by/4.0/.