Role of the structure order in the transport and magnetic properties of high-entropy alloy films

IF 8.6 2区 材料科学 Q1 MATERIALS SCIENCE, MULTIDISCIPLINARY
Jia-Wei Chen, Shih-Hsun Chen, Padraic Shafer, Wen-Yen Tzeng, Yi-Cheng Chen, Chih-Wei Luo, Wen-Wei Wu, Jien-Wei Yeh, Ying-Hao Chu
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Abstract

The fabrication and development of high-entropy alloys (HEAs) with exceptional functionalities is a rapidly expanding field with numerous applications. When the role of entropy in HEAs is considered, the extrinsic factors, such as the existence of grains and different phases, need to be separated from the intrinsic configurations of the atomic lattice. Here, we fabricated the CoCrFeNi2Al0.5 HEA/muscovite heterostructures, and some were prepared as epitaxial bilayers and others were prepared as an amorphous system. These two systems are classified into atomic-site disordered (ASD) and structurally disordered (SD) states, respectively, without the extrinsic effects for the determination of the crystal lattice role in high-entropy states. In this study, we determined the role of the structure order in correlation with the structural, electronic, and magnetic properties of HEAs using a combination of energy-dispersive X-ray spectrometry, X-ray diffraction, transmission electron microscopy, magneto-transport, ac magnetometry, and X-ray absorption spectroscopy with magnetic circular dichroism. The ASD state showed fully metallic behavior. In contrast, the SD state showed a metallic behavior with intense magnetic saturation, which was called Kondo-like behavior, under 50 K with a low-temperature coefficient of resistivity of ~64 ppm/°C. The difference between the saturation magnetic moment and the electron relaxation behavior in the ASD and SD states resulted from the existence of the structural order affecting the atomic distance and periodicity to modify the exchange interaction and tune the electron-phonon interaction for scattering. The ferromagnetic behavior contributed by Co, Fe, and Ni atoms was probed by X-ray absorption and magnetic circular dichroism to understand the magnetic interactions in the ASD and SD states.

Abstract Image

结构顺序在高熵合金薄膜的传输和磁特性中的作用
制造和开发具有特殊功能的高熵合金(HEAs)是一个快速发展的领域,其应用领域众多。在考虑熵在高熵合金中的作用时,需要将晶粒和不同相的存在等外在因素与原子晶格的内在构型区分开来。在这里,我们制备了 CoCrFeNi2Al0.5 HEA/muscovite 异质结构,其中一些制备成了外延双层结构,另一些制备成了非晶态体系。这两种体系被分别划分为原子位点无序(ASD)态和结构无序(SD)态,在确定高熵态中晶格的作用时不需要考虑外在效应。在这项研究中,我们结合使用了能量色散 X 射线光谱法、X 射线衍射法、透射电子显微镜法、磁传输法、交流磁力测定法和带有磁圆二色性的 X 射线吸收光谱法,确定了结构顺序与 HEA 的结构、电子和磁特性之间的相关性。ASD 状态显示出完全的金属特性。与此相反,SD 状态在 50 K 下表现出具有强磁饱和度的金属行为,被称为近藤行为,其低温电阻系数约为 64 ppm/°C。在 ASD 和 SD 状态下,饱和磁矩和电子弛豫行为之间的差异是由于存在影响原子间距和周期性的结构顺序,从而改变了交换相互作用,并调整了电子-声子相互作用以实现散射。通过 X 射线吸收和磁圆二色性探测了 Co、Fe 和 Ni 原子的铁磁行为,以了解 ASD 和 SD 状态下的磁相互作用。
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来源期刊
Npg Asia Materials
Npg Asia Materials MATERIALS SCIENCE, MULTIDISCIPLINARY-
CiteScore
15.40
自引率
1.00%
发文量
87
审稿时长
2 months
期刊介绍: NPG Asia Materials is an open access, international journal that publishes peer-reviewed review and primary research articles in the field of materials sciences. The journal has a global outlook and reach, with a base in the Asia-Pacific region to reflect the significant and growing output of materials research from this area. The target audience for NPG Asia Materials is scientists and researchers involved in materials research, covering a wide range of disciplines including physical and chemical sciences, biotechnology, and nanotechnology. The journal particularly welcomes high-quality articles from rapidly advancing areas that bridge the gap between materials science and engineering, as well as the classical disciplines of physics, chemistry, and biology. NPG Asia Materials is abstracted/indexed in Journal Citation Reports/Science Edition Web of Knowledge, Google Scholar, Chemical Abstract Services, Scopus, Ulrichsweb (ProQuest), and Scirus.
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