Realization of High Magnetization in Artificially Designed Ni/NiO Layers through Exchange Coupling

Ding, Xiang; Cui, Xiangyuan; Sathish, CI; Yu, Xiaojiang; Xi, Shibo; Breese, Mark B. H.; Zheng, Rongkun; Wang, Xiaolin; Wang, Lan; Wu, Tom; Ding, Jun; Vinu, Ajayan; Tseng, Li-Ting; Ringer, Simon P.; Yi, Jiabao; Wang, Yiren; Qu, Jiangtao; Yue, Zengji; Sang, Lina; Lee, Wai Tung; Guan, Xinwei; Bao, Nina

Title: Realization of High Magnetization in Artificially Designed Ni/NiO Layers through Exchange Coupling
Creator: Ding, Xiang; Cui, Xiangyuan; Sathish, CI; Yu, Xiaojiang; Xi, Shibo; Breese, Mark B. H.; Zheng, Rongkun; Wang, Xiaolin; Wang, Lan; Wu, Tom; Ding, Jun; Vinu, Ajayan; Tseng, Li-Ting; Ringer, Simon P.; Yi, Jiabao; Wang, Yiren; Qu, Jiangtao; Yue, Zengji; Sang, Lina; Lee, Wai Tung; Guan, Xinwei; Bao, Nina
Relation: Small Vol. 20, no. 2304369
Publisher Link: http://dx.doi.org/10.1002/smll.202304369
Publisher: Wiley-VCH Verlag GmbH & Co. KGaA
Resource Type: journal article
Date: 2024
Description: High-magnetization materials play crucial roles in various applications. However, the past few decades have witnessed a stagnation in the discovery of new materials with high magnetization. In this work, Ni/NiO nanocomposites are fabricated by depositing Ni and NiO thin layers alternately, followed by annealing at specific temperatures. Both the as-deposited samples and those annealed at 373 K exhibit low magnetization. However, the samples annealed at 473 K exhibit a significantly enhanced saturation magnetization exceeding 607 emu cm−3 at room temperature, surpassing that of pure Ni (480 emu cm−3). Material characterizations indicate that the composite comprises NiO nanoclusters of size 1–2 nm embedded in the Ni matrix. This nanoclustered NiO is primarily responsible for the high magnetization, as confirmed by density functional theory calculations. The calculations also indicate that the NiO clusters are ferromagnetically coupled with Ni, resulting in enhanced magnetization. This work demonstrates a new route toward developing artificial high-magnetization materials using the high magnetic moments of nanoclustered antiferromagnetic materials.
Subject: exchange coupling; first-principles calcuations; high magnetization; magnetic materials; Ni and NiO
Identifier: http://hdl.handle.net/1959.13/1514061
Identifier: uon:56809
Identifier: ISSN:1613-6810
Rights: © 2023 The Authors. Small published by Wiley-VCH GmbH. This is an open access article under the terms of the Creative Commons Attribution License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited.
Language: eng
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