2014
DOI: 10.1063/1.4904860
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Ferromagnetism in Gd doped ZnO nanowires: A first principles study

Abstract: Size effects on formation energies and electronic structures of oxygen and zinc vacancies in ZnO nanowires: A first-principles study J. Appl. Phys. 109, 044306 (2011) In several experimental studies, room temperature ferromagnetism in Gd-doped ZnO nanostructures has been achieved. However, the mechanism and the origin of the ferromagnetism remain controversial. We investigate the structural, magnetic, and electronic properties of Zn 48 O 48 nanowires doped with Gd, using density functional theory. Our findings… Show more

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Cited by 53 publications
(33 citation statements)
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“…The introduction of additional charge to the nanowire by the injection of an electron further enhanced ΔE, indicating that the presence of O vacancies may stabilize ferromagnetic coupling in the nanowire, given that a single O vacancy can release two electrons into the system. The ΔE increased to 200 meV in the presence of O vacancies, supporting the possibility of an increased f-s coupling ( Table 1 [ 53]). The density of states (DOS) of Gd-doped ZnO nanowires with and without O vacancies provided further insight into the exchange mechanism.…”
Section: The Origin Of the Ferromagnetism In Gd-doped Zno Nanowiresmentioning
confidence: 72%
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“…The introduction of additional charge to the nanowire by the injection of an electron further enhanced ΔE, indicating that the presence of O vacancies may stabilize ferromagnetic coupling in the nanowire, given that a single O vacancy can release two electrons into the system. The ΔE increased to 200 meV in the presence of O vacancies, supporting the possibility of an increased f-s coupling ( Table 1 [ 53]). The density of states (DOS) of Gd-doped ZnO nanowires with and without O vacancies provided further insight into the exchange mechanism.…”
Section: The Origin Of the Ferromagnetism In Gd-doped Zno Nanowiresmentioning
confidence: 72%
“…The density of states (DOS) of Gd-doped ZnO nanowires with and without O vacancies provided further insight into the exchange mechanism. A pristine ZnO nanowire is semiconducting with nonmagnetic characteristics (Figure 15) [53]. Doping with Gd atom causes a significant shift of the Fermi level to the conduction band close to the Gd f states.…”
Section: The Origin Of the Ferromagnetism In Gd-doped Zno Nanowiresmentioning
confidence: 99%
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“…Hole injection enhances the hybridization of states near VB by moving the E F towards the VBM, thus, enhancing the magnetic coupling. 38 On the other hand, increasing electron carrier density is expected to move the E F away from the VBM, into the conduction band, 39 reducing the hybridization near the E F whereby no ferromagnetic enhancement can take place. We find that weak ferromagnetic coupling is favored for the neutral charge state for both configurations, with small energy differences (∆E < 30 meV).…”
Section: B Magnetismmentioning
confidence: 99%