Structural characterization and microwave absorbing performance of CuFe2O4/RGO composites

Abstract

Efficient preparation of microwave absorbers with thin thickness, strong absorbance, broad bandwidth and low filler loading remains a significant challenge. In this study, copper ferrite/reduced graphene oxide composites were synthesized by a one-pot hydrothermal method. The chemical composition, phase structure and micromorphology were characterized by Fourier transform infrared spectroscopy, X-ray diffraction, Raman spectroscopy, X-ray photoelectron spectroscope, scanning electron microscope and transmission electron microscope. The characteristics of electromagnetic were assessed on a vector network analyzer. Results show that the content of graphene oxide greatly influences the microwave absorption properties of copper ferrite/reduced graphene oxide composites. The maximum reflection loss value of composites was −58.7 ​dB ​at 9.2 ​GHz with a thickness of 2.56 ​mm, when the primitive amount of graphene oxide was 20 ​mg. At the same time, the effective bandwidth can reach 5.2 ​GHz under merely 1.85 ​mm. The brilliant performance of microwave absorption is usually ascribed to multi-dipole polarization and outstanding impedance matching. This work supplies guidance for designing absorbers that are lightweight, wideband, and strong absorption ability.