期刊
JOURNAL OF COLLOID AND INTERFACE SCIENCE
卷 594, 期 -, 页码 424-434出版社
ACADEMIC PRESS INC ELSEVIER SCIENCE
DOI: 10.1016/j.jcis.2021.03.056
关键词
Co3O4@NiCo2O4 composites; ZIF-67; Core-shell structure; Electromagnetic wave absorption; Heterogeneous interfaces
资金
- National Science foundation of China [51502231, 51872238, 21806129]
- Natural Science Basic Research Plan in Shaanxi Province of China [2017JM5064]
Core-shell structural Co3O4@NiCo2O4 composites were successfully fabricated in this study, with the cavity volume between core and shell modulated effectively by controlling proton etching and deposition reaction. The composites exhibited excellent electromagnetic wave absorption properties, with optimized microstructure showing a broad effective absorption bandwidth and intensity.
Core-shell structural cobalt- and nickel-based metal oxides with different compositions have rarely been reported as electromagnetic wave absorption materials. Herein, core-shell structural Co3O4@NiCo2O4 composites have been successfully fabricated via simple etching and deposition reaction of Co-based metal-organic framework with subsequent calcination in air. According to morphological evolution, it is verified that the cavity volume between Co3O4 core and NiCo2O4 shell could be modulated effectively by simply controlling proton etching and deposition reaction. The electromagnetic wave absorption properties of the Co3O4@NiCo(2)O4 composites were investigate. It was demonstrated that multiple interfacial polarization of heterogeneous interfaces involving cavities, such as Co3O4/Void, Void/NiCo2O4 and Co3O4/NiCo2O4 have made great contribution to the excellent electromagnetic wave absorption performance. Co3O4@NiCo2O4 with optimized microstructure exhibited RL value as strong as -34.42 dB with a broad effective absorption bandwidth up to 4.88 GHz at a layer thickness of 2.6 mm. It is believed that core-shell structural cobalt- and nickel-based metal oxides will become an excellent candidate for high-performance electromagnetic wave absorber. (C) 2021 Elsevier Inc. All rights reserved.
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