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Auteurs principaux: Pishevar, Ebrahim, Karamitaheri, Hossein
Format: Preprint
Publié: 2025
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Accès en ligne:https://arxiv.org/abs/2501.13436
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author Pishevar, Ebrahim
Karamitaheri, Hossein
author_facet Pishevar, Ebrahim
Karamitaheri, Hossein
contents This study delves into the thermoelectric properties of armchair black phosphorene nanoribbons while considering the presence of line edge roughness. Employing the tight-binding method in conjunction with non-equilibrium Green's function techniques and Landauer formulas, we explore the impact of various parameters on thermoelectric performance. Our findings reveal that the electrical conductivity and, consequently, the power factor exhibit an increasing trend with expanding ribbon length and width. This behavior can be attributed to heightened collision rates, particularly in narrow ribbons, induced by line edge roughness as length increases. Remarkably, the Seebeck coefficient at the Fermi energy corresponding to the maximum power factor remains nearly constant across different widths, lengths, temperatures and transport regimes. Furthermore, the thermoelectric figure of merit demonstrates a positive correlation with both ribbon length and width. In narrow widths and lengths around 1000 nm, the power factor and figure of merit exhibit an upward trend with ribbon width. However, with further increases in ribbon width, the influence of line edge roughness on thermal conductivity diminishes. Consequently, the figure of merit decreases due to the rise in thermal conductivity. Notably, the thermoelectric figure of merit is higher for short and narrow ribbons and long and wider ribbons.
format Preprint
id arxiv_https___arxiv_org_abs_2501_13436
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Line Edge Roughness Effects on the Thermoelectric Properties of Armchair Black Phosphorene Nanoribbons
Pishevar, Ebrahim
Karamitaheri, Hossein
Mesoscale and Nanoscale Physics
This study delves into the thermoelectric properties of armchair black phosphorene nanoribbons while considering the presence of line edge roughness. Employing the tight-binding method in conjunction with non-equilibrium Green's function techniques and Landauer formulas, we explore the impact of various parameters on thermoelectric performance. Our findings reveal that the electrical conductivity and, consequently, the power factor exhibit an increasing trend with expanding ribbon length and width. This behavior can be attributed to heightened collision rates, particularly in narrow ribbons, induced by line edge roughness as length increases. Remarkably, the Seebeck coefficient at the Fermi energy corresponding to the maximum power factor remains nearly constant across different widths, lengths, temperatures and transport regimes. Furthermore, the thermoelectric figure of merit demonstrates a positive correlation with both ribbon length and width. In narrow widths and lengths around 1000 nm, the power factor and figure of merit exhibit an upward trend with ribbon width. However, with further increases in ribbon width, the influence of line edge roughness on thermal conductivity diminishes. Consequently, the figure of merit decreases due to the rise in thermal conductivity. Notably, the thermoelectric figure of merit is higher for short and narrow ribbons and long and wider ribbons.
title Line Edge Roughness Effects on the Thermoelectric Properties of Armchair Black Phosphorene Nanoribbons
topic Mesoscale and Nanoscale Physics
url https://arxiv.org/abs/2501.13436