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Abstract Designing one-dimensional (1D) magnetic-carbon composites microwave absorbers is a promising strategy that can meet the current demand for high-performance microwave absorption (MA) materials. In this work, hierarchical structured Fe3O4/Fe@C@MoS2… Click to show full abstract
Abstract Designing one-dimensional (1D) magnetic-carbon composites microwave absorbers is a promising strategy that can meet the current demand for high-performance microwave absorption (MA) materials. In this work, hierarchical structured Fe3O4/Fe@C@MoS2 nanofibers were successfully obtained via a simple three-step method. 1D Fe3O4/Fe@C nanofibers were fabricated through electrospinning technology and in-situ polymerization followed by carbonization and reduction in H2/N2 atmosphere. MoS2 nanosheets grew irregularly on the surface of 1D Fe3O4/Fe@C nanofibers to form the flower-like structure. The morphology, composition and magnetism of samples were systematically investigated. Furthermore, electromagnetic characteristics and MA properties of Fe3O4/Fe@C nanofibers and Fe3O4/Fe@C@MoS2 nanofibers were compared. The minimum reflection loss (RLmin) of Fe3O4/Fe@C@MoS2 nanofibers could reach −53.79 dB at 11.12 GHz and the corresponding absorption bandwidth (RL
Journal Title: Carbon
Year Published: 2021
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