Coexistence of broad-bandwidth and strong microwave absorption in Co2+-Zr4+ co-doped barium ferrite ceramics

Abstract

BaFe12O19 (BaM) has wide applications in electronic devices in the microwave frequency band. Ion doping has become a popular method to improve the performance of BaM in microwave absorption. This work investigates the microwave absorption properties of Ba(CoZr)xFe12-2xO19 (BFCZO-x, x = 0.2, 0.4, 0.6) ceramics prepared by the traditional solid-state reaction method. The structure and morphology confirm that BFCZO-x ceramics belong to the hexagonal system. The values of Ms (Hc) vary from 28emu/g (828Oe) to 40emu/g (453Oe) with the increase in x from 0.2 to 0.6, respectively. The microwave absorption results show that the maximum reflection loss can reach about −28.7dB at 16.4GHz of BFCZO-0.4 and present a broad bandwidth (13.34–18.8GHz over −10dB) with a thickness of 1.7mm. Compared with other BaM-based materials, the coexistence of broad bandwidth and strong absorption in BFCZO-x ceramics indicates that it could be a promising material for designing microwave devices.