High-Coercivity FePt Nanoparticle Assemblies Embedded in Oxide-Matrix by Atomic Layer Deposition

J.-Z. Kong; A.-D. Li; M.-Y. Gao; Q.-Y. Yan; D. Wu

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High-Coercivity FePt Nanoparticle Assemblies Embedded in Oxide-Matrix by Atomic Layer Deposition

机译：通过原子层沉积法将高矫顽力的FePt纳米粒子组件嵌入氧化物基质

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Self-assembled face-centered cubic FePt nanoparticles were embedded into the oxide capping layer using the atomic layer deposition technology. The effect of the oxide-matrix layer on the structure, mono-dispersibility, and magnetic properties of the FePt/oxide composite thin films was investigated. Experimental results suggest that the protection of the oxide-matrix capping layer can effectively inhibit the grain growth and particle aggregation, and preserve the ordered domains of the FePt nanoparticles during the L1_0 ordering transition through annealing. The combination of the atomic layer deposition capping layer and self-assembled FePt nanoparticles provides a new potential approach to fabricate the ultrahigh-density magnetic recording media.

机译：使用原子层沉积技术将自组装的以面心为中心的立方FePt纳米粒子嵌入氧化物覆盖层中。研究了氧化物基质层对FePt /氧化物复合薄膜的结构，单分散性和磁性的影响。实验结果表明，保护氧化层覆盖层可以有效地抑制晶粒的生长和颗粒的聚集，并在退火过程中保持L1_0有序过渡过程中保留FePt纳米颗粒的有序域。原子层沉积覆盖层和自组装的FePt纳米粒子的结合提供了一种新的潜在方法来制造超高密度磁记录介质。

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来源
《Acta Physica Polonica》 |2013年第2期|173-176|共4页
作者
J.-Z. Kong; A.-D. Li; M.-Y. Gao; Q.-Y. Yan; D. Wu;
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作者单位

Materials Science and Engineering Department, National Laboratory of Solid State Microstructures Nanjing University, Nanjing 210093, P.R. China,Nanjing University Aeronaut & Astronaut, Academy Frontier Science, Nanjing 210016, P.R. China;

Materials Science and Engineering Department, National Laboratory of Solid State Microstructures Nanjing University, Nanjing 210093, P.R. China;

Materials Science and Engineering Department, National Laboratory of Solid State Microstructures Nanjing University, Nanjing 210093, P.R. China;

School of Materials Science and Engineering, Nanyang Technological University, Singapore 639798;

Materials Science and Engineering Department, National Laboratory of Solid State Microstructures Nanjing University, Nanjing 210093, P.R. China;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类
关键词
high coercivity materials; fe and its alloys; magnetic recording materials;

机译：高矫顽力的材料;Fe及其合金;磁记录材料;

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High-Coercivity FePt Nanoparticle Assemblies Embedded in Oxide-Matrix by Atomic Layer Deposition

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