Please use this identifier to cite or link to this item: https://hdl.handle.net/20.500.14279/24382
Title: Quantum Confinement of Electron-Phonon Coupling in Graphene Quantum Dots
Authors: Zacharias, Marios 
Kelires, Pantelis C. 
Major Field of Science: Engineering and Technology
Field Category: Nano-Technology
Keywords: Electron-phonon interactions;Graphene;Nanocrystals;Quantum chemistry;Quantum dots
Issue Date: 14-Oct-2021
Source: Journal of Physical Chemistry Letters, 2021, vol. 12, no. 40, pp. 9940-9946
Volume: 12
Issue: 40
Start page: 9940
End page: 9946
Journal: Journal of Physical Chemistry Letters 
Abstract: On the basis of first-principles calculations and the special displacement method, we demonstrate the quantum confinement scaling law of the phonon-induced gap renormalization of graphene quantum dots (GQDs). We employ zigzag-edged GQDs with hydrogen passivation and embedded in hexagonal boron nitride. Our calculations for GQDs in the sub-10 nm region reveal strong quantum confinement of the zero-point renormalization ranging from 20 to 250 meV. To obtain these values we introduce a correction to the Allen-Heine theory of temperature-dependent energy levels that arises from the phonon-induced splitting of 2-fold degenerate edge states. This correction amounts to more than 50% of the gap renormalization. We also present momentum-resolved spectral functions of GQDs, which are not reported in previous contributions. Our results lay the foundation to systematically engineer temperature-dependent electronic structures of GQDs for applications in solar cells, electronic transport, and quantum computing devices.
URI: https://hdl.handle.net/20.500.14279/24382
ISSN: 19487185
19487185
DOI: 10.1021/acs.jpclett.1c02899
Rights: © American Chemical Society
Type: Article
Affiliation : Cyprus University of Technology 
Publication Type: Peer Reviewed
Appears in Collections:Άρθρα/Articles

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