4.7 Article

Governing the Ni content and size of 2D layered C/Ni nanoparticle composites for enhanced electromagnetic wave absorption

期刊

APPLIED SURFACE SCIENCE
卷 571, 期 -, 页码 -

出版社

ELSEVIER
DOI: 10.1016/j.apsusc.2021.151273

关键词

2D heterostructures; Nanoparticle array; Salt-template method; Layered C/Ni NP composite; Microwave absorption mechanism

资金

  1. National Natural Scientific Foundation of China [52073260]
  2. Public Utility Items of Zhejiang Province [LGG21E020002]
  3. Industrial Key Projects of Jinhua City [2019A12238]
  4. Self-Topic Fund of Zhejiang Normal University [2020ZS04]

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Control of size and dispersity is critical for magnetic metal absorbents to inhibit eddy currents and enhance electromagnetic wave absorption performance (EMWAP). Layered C/Ni nano particle (NP) composites were developed with controlled size and dispersity for excellent EMWAP. The synthetic method via one-step calcination process allows for adjustment of electric/magnetic properties and EMWAP, showing high absorption rate, thin thickness, and wide bandwidth.
The size and dispersity of magnetic metal absorbents need to be controlled for the inhibition of the eddy current and the enhancement of electromagnetic wave absorption performance (EMWAP). Herein, layered C/Ni nano particle (NP) composites were developed as an excellent electromagnetic wave absorbent via the size and dispersity control. The synthesis of layered C/Ni NP composites was achieved via a simple one-step calcination process. The amount of nickel acetate (n) and calcination temperature (T-c) were changed to not only control the diameter, content, and dispersity of Ni nanoparticles, but also adjust the electric/magnetic properties and EMWAP of layered C/Ni NP composites. The superior EMWAP was obtained at n = 3.99 mmol and T-c = 600 degrees C with high assimilation (-39.46 dB), thin thickness (2.3 mm), and broad bandwidth (9.68 GHz) in a low loading rate (25 wt%). Our results suggest that excellent EMWAPs relies on the cooperation of multiple polarization loss, multiple resonances, eddy current loss, electric/magnetic coupling, and good impedance matching. The synthetic method adopted in this work has advantages of simple operation, low cost, and high yield, which is recommended to other 2D materials.

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