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Research Article

Flexible design of gradient multilayer nanofilms coated on carbon nanofibers by atomic layer deposition for enhanced microwave absorption performance

Shichao Zhao1,2Lili Yan1,2Xiaodong Tian2,3Yequn Liu1,4Chaoqiu Chen1Yunqin Li1,2Jiankang Zhang1,2Yan Song3Yong Qin1( )
State Key Laboratory of Coal ConversionInstitute of Coal ChemistryChinese Academy of SciencesTaiyuan030001China
University of Chinese Academy of SciencesBeijing100039China
Key Laboratory of Carbon MaterialsInstitute of Coal ChemistryChinese Academy of SciencesTaiyuan030001China
Analytical Instrumentation CenterInstitute of Coal ChemistryChinese Academy of SciencesTaiyuan030001China
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Abstract

Impedance matching is important for achieving high-efficiency microwave absorbers. The high conductivity of dielectric loss materials such as pure metals and carbon nanomaterials generally results in poor absorption owing to the low impedance matching between the absorbers and air. Carbon nanostructures are very promising candidates for high-efficiency absorption because of their attractive features including low density, high surface area, and good stability. Herein, a new strategy is proposed to improve the impedance matching of dielectric loss materials using electrospun carbon nanofibers as an example. The carbon nanofibers are coated with specifically designed gradient multilayer nanofilms with gradually increasing electroconductibility synthesized by doping ZnO with different Al2O3 content (AZO) by atomic layer deposition. The gradient nanofilms are composed of five layers of dielectric films, namely, pure Al2O3, AZO (5:1, the pulse cycle ratio of ZnO to Al2O3), pure ZnO, AZO (10:1), and AZO (20:1). The versatile gradient films serve as intermediate layers to tune the impedance matching between air and the carbon nanofiber surfaces. Therefore, the carbon nanofibers coated with gradient films of rationally selected thicknesses exhibit remarkably enhanced microwave absorption performance, and the optimal reflection loss reaches?58.5 dB at 16.2 GHz with a thickness of only 1.8 mm. This work can help further understand the contribution of impedance matching to microwave absorption. Our strategy is general and can be applied to improve the absorption properties of other dielectric loss materials and even for applications in other fields.

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Nano Research
Pages 530-541

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Cite this article:
Zhao S, Yan L, Tian X, et al. Flexible design of gradient multilayer nanofilms coated on carbon nanofibers by atomic layer deposition for enhanced microwave absorption performance. Nano Research, 2018, 11(1): 530-541. https://doi.org/10.1007/s12274-017-1664-6

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Received: 02 February 2017
Revised: 01 May 2017
Accepted: 04 May 2017
Published: 18 July 2017
© Tsinghua University Press and Springer-Verlag GmbH Germany 2017