具有可设计间隔的蛋黄壳结构 Ni@SnO 复合材料，用于改善电磁波吸收性能。

Yolk-Shell Ni@SnO Composites with a Designable Interspace To Improve the Electromagnetic Wave Absorption Properties.

机构信息

Provincial Key Laboratory of Aviation Materials and Application Technology, Zhengzhou University of Aeronautics , Zhengzhou, Henan 450046, China.

School of Mechatronics Engineering, Zhengzhou University of Aeronautics , Zhengzhou, Henan 450046, China.

出版信息

ACS Appl Mater Interfaces. 2016 Oct 26;8(42):28917-28925. doi: 10.1021/acsami.6b10886. Epub 2016 Oct 12.

DOI:10.1021/acsami.6b10886

PMID:27700044

Abstract

In this study, yolk-shell Ni@SnO composites with a designable interspace were successfully prepared by the simple acid etching hydrothermal method. The Ni@void@SnO composites were characterized by X-ray diffraction, Fourier transform infrared spectroscopy, X-ray photoelectron spectroscopy, scanning electron microscopy, and transmission electron microscopy. The results indicate that interspaces exist between the Ni cores and SnO shells. Moreover, the void can be adjusted by controlling the hydrothermal reaction time. The unique yolk-shell Ni@void@SnO composites show outstanding electromagnetic wave absorption properties. A minimum reflection loss (RL) of -50.2 dB was obtained at 17.4 GHz with absorber thickness of 1.5 mm. In addition, considering the absorber thickness, minimal reflection loss, and effective bandwidth, a novel method to judge the effective microwave absorption properties is proposed. On the basis of this method, the best microwave absorption properties were obtained with a 1.7 mm thick absorber layer (RL= -29.7 dB, bandwidth of 4.8 GHz). The outstanding electromagnetic wave absorption properties stem from the unique yolk-shell structure. These yolk-shell structures can tune the dielectric properties of the Ni@air@SnO composite to achieve good impedance matching. Moreover, the designable interspace can induce interfacial polarization, multiple reflections, and microwave plasma.

摘要

在这项研究中，通过简单的酸蚀水热法成功制备了具有可设计间隔的蛋黄壳型 Ni@SnO 复合材料。通过 X 射线衍射、傅里叶变换红外光谱、X 射线光电子能谱、扫描电子显微镜和透射电子显微镜对 Ni@void@SnO 复合材料进行了表征。结果表明，Ni 核和 SnO 壳之间存在间隔。此外，通过控制水热反应时间可以调节空隙。独特的蛋黄壳型 Ni@void@SnO 复合材料表现出优异的电磁波吸收性能。在 17.4GHz 时，厚度为 1.5mm 的吸收体的最小反射损耗（RL）为-50.2dB。此外，考虑到吸收体的厚度、最小反射损耗和有效带宽，提出了一种新的判断有效微波吸收性能的方法。在此基础上，在 1.7mm 厚的吸收层中获得了最佳的微波吸收性能（RL=-29.7dB，带宽为 4.8GHz）。优异的电磁波吸收性能源于独特的蛋黄壳结构。这些蛋黄壳结构可以调节 Ni@空气@SnO 复合材料的介电性能，实现良好的阻抗匹配。此外，可设计的间隔可以诱导界面极化、多次反射和微波等离子体。

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具有可设计间隔的蛋黄壳结构 Ni@SnO 复合材料，用于改善电磁波吸收性能。

Yolk-Shell Ni@SnO Composites with a Designable Interspace To Improve the Electromagnetic Wave Absorption Properties.

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