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Autores principales: Xiong, Lingxiao, Yan, Yuhui, Zheng, Feipeng
Formato: Preprint
Publicado: 2025
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Acceso en línea:https://arxiv.org/abs/2502.08915
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author Xiong, Lingxiao
Yan, Yuhui
Zheng, Feipeng
author_facet Xiong, Lingxiao
Yan, Yuhui
Zheng, Feipeng
contents Recently, two-dimensional Nb$_2$C has garnered increasing attention due to its functional-group-dependent superconductivity, both experimentally and theoretically. In contrast to the halogen and chalcogen additives that have been the main focus of previous studies, we study the effect of lithium adsorption, which can also be incorporated during the synthesis of Nb$_2$C. Our computational analysis reveals a metal-to-superconductor transition in monolayer Nb$_2$C with a critical temperature ($T_{\mathrm{c}}$) of 22.1 K and a strong anisotropic superconducting gap distribution following the adsorption of lithium atoms. This emergent superconductivity is attributed to the increased electronic states at the Fermi energy, resulting from the contribution of Nb-$d$ orbitals and electron gas states induced by the low electronegativity of lithium. Furthermore, the application of tensile strain raises the $T_{\mathrm{c}}$ to 24 K, which is higher than that of most functional-group-modified Nb$_2$C systems. Our work deepens the understanding of electron-phonon coupling in layered Nb$_2$C, and provides new insights into achieving high critical temperature superconductivity with a strong anisotropic superconducting gap distribution in this system.
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id arxiv_https___arxiv_org_abs_2502_08915
institution arXiv
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spellingShingle Metal-to-superconductor Transition Induced by Lithium Adsorption on Monolayer 1$T$-Nb$_2$C
Xiong, Lingxiao
Yan, Yuhui
Zheng, Feipeng
Superconductivity
Recently, two-dimensional Nb$_2$C has garnered increasing attention due to its functional-group-dependent superconductivity, both experimentally and theoretically. In contrast to the halogen and chalcogen additives that have been the main focus of previous studies, we study the effect of lithium adsorption, which can also be incorporated during the synthesis of Nb$_2$C. Our computational analysis reveals a metal-to-superconductor transition in monolayer Nb$_2$C with a critical temperature ($T_{\mathrm{c}}$) of 22.1 K and a strong anisotropic superconducting gap distribution following the adsorption of lithium atoms. This emergent superconductivity is attributed to the increased electronic states at the Fermi energy, resulting from the contribution of Nb-$d$ orbitals and electron gas states induced by the low electronegativity of lithium. Furthermore, the application of tensile strain raises the $T_{\mathrm{c}}$ to 24 K, which is higher than that of most functional-group-modified Nb$_2$C systems. Our work deepens the understanding of electron-phonon coupling in layered Nb$_2$C, and provides new insights into achieving high critical temperature superconductivity with a strong anisotropic superconducting gap distribution in this system.
title Metal-to-superconductor Transition Induced by Lithium Adsorption on Monolayer 1$T$-Nb$_2$C
topic Superconductivity
url https://arxiv.org/abs/2502.08915