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Main Authors: Aliyev, Emin, Mobaraki, Arash, Sevinçli, Hâldun, Jahangirov, Seymur
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2512.06599
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author Aliyev, Emin
Mobaraki, Arash
Sevinçli, Hâldun
Jahangirov, Seymur
author_facet Aliyev, Emin
Mobaraki, Arash
Sevinçli, Hâldun
Jahangirov, Seymur
contents Two-dimensional (2D) quartic dispersion materials are known to develop magnetization upon doping. Here we conduct a systematic investigation of magnetization in hole-doped quartic dispersion materials (GaS, InSe, TiO$_{2}$), focusing on the effects of structural confinement from 2D monolayers to quasi-one-dimensional nanoribbons (NRs). Upon hole doping, these NRs develop itinerant magnetization across a broad range of carrier densities and display half-metallic behavior. The spin-polarization energies ($E_{sp}$) of these NRs enhance remarkably relative to their 2D counterparts, with maximum increase being in the case of TiO$_{2}$ from 31 to 103 meV/carrier. The $E_{sp}$ strongly depends on the degree of localization of the magnetic moments along the width of NRs, which is determined by edge passivation and ribbon width. Strong deformation of the topmost valence bands at higher dopings indicates deviation from the Stoner mechanism.
format Preprint
id arxiv_https___arxiv_org_abs_2512_06599
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Doping induced magnetism and half-metallicity in nanoribbons of quartic dispersion materials
Aliyev, Emin
Mobaraki, Arash
Sevinçli, Hâldun
Jahangirov, Seymur
Materials Science
Mesoscale and Nanoscale Physics
Two-dimensional (2D) quartic dispersion materials are known to develop magnetization upon doping. Here we conduct a systematic investigation of magnetization in hole-doped quartic dispersion materials (GaS, InSe, TiO$_{2}$), focusing on the effects of structural confinement from 2D monolayers to quasi-one-dimensional nanoribbons (NRs). Upon hole doping, these NRs develop itinerant magnetization across a broad range of carrier densities and display half-metallic behavior. The spin-polarization energies ($E_{sp}$) of these NRs enhance remarkably relative to their 2D counterparts, with maximum increase being in the case of TiO$_{2}$ from 31 to 103 meV/carrier. The $E_{sp}$ strongly depends on the degree of localization of the magnetic moments along the width of NRs, which is determined by edge passivation and ribbon width. Strong deformation of the topmost valence bands at higher dopings indicates deviation from the Stoner mechanism.
title Doping induced magnetism and half-metallicity in nanoribbons of quartic dispersion materials
topic Materials Science
Mesoscale and Nanoscale Physics
url https://arxiv.org/abs/2512.06599