通过缺陷工程实现稀磁半导体中的铁磁性：Li 掺杂 ZnO。

Ferromagnetism in dilute magnetic semiconductors through defect engineering: Li-doped ZnO.

机构信息

Department of Materials Science and Engineering, National University of Singapore, 119260, Singapore.

出版信息

Phys Rev Lett. 2010 Apr 2;104(13):137201. doi: 10.1103/PhysRevLett.104.137201. Epub 2010 Mar 29.

DOI:10.1103/PhysRevLett.104.137201

PMID:20481907

Abstract

We demonstrate, both theoretically and experimentally, that cation vacancy can be the origin of ferromagnetism in intrinsic dilute magnetic semiconductors. The vacancies can be controlled to tune the ferromagnetism. Using Li-doped ZnO as an example, we found that while Li itself is nonmagnetic, it generates holes in ZnO, and its presence reduces the formation energy of Zn vacancy, and thereby stabilizes the zinc vacancy. Room temperature ferromagnetism with p type conduction was observed in pulsed laser deposited ZnO:Li films with certain doping concentration and oxygen partial pressure.

摘要

我们从理论和实验上证明，阳离子空位可以是本征稀磁半导体中产生铁磁性的根源。可以通过控制空位来调节铁磁性。以 Li 掺杂 ZnO 为例，我们发现虽然 Li 本身没有磁性，但它在 ZnO 中产生了空穴，而且 Li 的存在降低了 Zn 空位的形成能，从而稳定了锌空位。在一定掺杂浓度和氧分压的脉冲激光沉积 ZnO:Li 薄膜中观察到了具有 p 型导电的室温铁磁性。

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通过缺陷工程实现稀磁半导体中的铁磁性：Li 掺杂 ZnO。

Ferromagnetism in dilute magnetic semiconductors through defect engineering: Li-doped ZnO.

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通过缺陷工程实现稀磁半导体中的铁磁性：Li 掺杂 ZnO。

Ferromagnetism in dilute magnetic semiconductors through defect engineering: Li-doped ZnO.

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