Ferromagnetism in p-Type Manganese-Doped Zinc Oxide Quantum Dots

The magnetic exchange interactions between paramagnetic Mn2+ dopants in the presence of a N2– p-type defect in zinc oxide quantum dots are studied using density functional theory. Spin-dependent delocalization of the N2– 2p acceptor level among the nearest-neighbor Mn2+ dopants is observed. The calc...

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Veröffentlicht in:	The journal of physical chemistry letters 2012-05, Vol.3 (10), p.1374-1380
Hauptverfasser:	May, Joseph W, McMorris, Ryan J, Li, Xiaosong
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Sprache:	eng
Schlagworte:	Physical Processes in Nanomaterials and Nanostructures
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description	The magnetic exchange interactions between paramagnetic Mn2+ dopants in the presence of a N2– p-type defect in zinc oxide quantum dots are studied using density functional theory. Spin-dependent delocalization of the N2– 2p acceptor level among the nearest-neighbor Mn2+ dopants is observed. The calculations show that parallel Mn2+ spin alignment is favored upon the formation of a nitrogen-bridged Mn–Mn dimer. Although the effect is short-ranged, the observed magnitude of stabilization of the ferromagnetic alignment of nearest-neighbor Mn2+ spins arises from p–d exchange and suggests p-type Mn2+-doped ZnO quantum dots as excellent candidates for exhibiting room-temperature ferromagnetism. Analytical expressions are derived and supported by density functional theory calculations that show that the N2– concentration has a stronger influence on the magnetic splitting compared with that of the Mn2+ concentration.
doi_str_mv	10.1021/jz300273k
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Spin-dependent delocalization of the N2– 2p acceptor level among the nearest-neighbor Mn2+ dopants is observed. The calculations show that parallel Mn2+ spin alignment is favored upon the formation of a nitrogen-bridged Mn–Mn dimer. Although the effect is short-ranged, the observed magnitude of stabilization of the ferromagnetic alignment of nearest-neighbor Mn2+ spins arises from p–d exchange and suggests p-type Mn2+-doped ZnO quantum dots as excellent candidates for exhibiting room-temperature ferromagnetism. 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Phys. Chem. Lett</addtitle><description>The magnetic exchange interactions between paramagnetic Mn2+ dopants in the presence of a N2– p-type defect in zinc oxide quantum dots are studied using density functional theory. Spin-dependent delocalization of the N2– 2p acceptor level among the nearest-neighbor Mn2+ dopants is observed. The calculations show that parallel Mn2+ spin alignment is favored upon the formation of a nitrogen-bridged Mn–Mn dimer. Although the effect is short-ranged, the observed magnitude of stabilization of the ferromagnetic alignment of nearest-neighbor Mn2+ spins arises from p–d exchange and suggests p-type Mn2+-doped ZnO quantum dots as excellent candidates for exhibiting room-temperature ferromagnetism. 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title	Ferromagnetism in p-Type Manganese-Doped Zinc Oxide Quantum Dots
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