Abstract

Urchin-like α-Fe₂O₃ and Fe₃O₄ nanostructures were prepared from the precursor urchin-like α-FeOOH under reducing atmosphere. The dependence of reduction temperature on their morphology, microstructure, and microwave electromagnetic and absorbing characteristics were systematically studied. It is found that the reduction temperature plays an important role in the microstructure and electromagnetic characteristics of the resulting products. In present study, the urchin-like α-Fe₂O₃ with dual absorption peaks can be formed at the relatively low temperature (e.g. 300 °C). Urchin-like Fe₃O₄ can be obtained just at 350–400 °C, which presents excellent microwave absorption property, with the minimum reflection loss of −29.96 dB and below −20 dB in 3.76–8.15 GHz corresponding to 3–4 mm thickness. The excellent microwave-absorption properties are a consequence of a proper electromagnetic matching and enhanced absorbing abilities resulting from the urchin-like shape and inverse spinel-type crystal structure.

Graphical abstract

Urchin-like α-Fe₂O₃ and Fe₃O₄ with excellent microwave absorbing characteristics were selectively synthesized by a facile glucose-guided hydrolyzing-reducing approach at different reducing temperatures.

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