Journal
COMPOSITES PART A-APPLIED SCIENCE AND MANUFACTURING
Volume 159, Issue -, Pages -Publisher
ELSEVIER SCI LTD
DOI: 10.1016/j.compositesa.2022.107020
Keywords
A; Nanocomposites; B; Electrical properties; Magnetic properties; Electromagnetic wave absorption
Funding
- National Natural Science Foundation of China [52002306]
- Young Talent fund of University Association for Science and Technology in Shaanxi, China [20210601]
- Shaanxi Provincial Education Department [20JK0687]
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A highly efficient nanocomposite absorber was prepared by doping polyoxometalate and Fe3O4 on the surface of MXene, which effectively adjusted the electromagnetic parameters and improved the absorbing performance.
Two-dimensional layered metal carbides (MXene) have a broad application prospect in electromagnetic absorption, but suffer from poor impedance matching, which limits the absorbing performance. Herein, an efficient nanocomposite absorber was successfully prepared via loading Co-substituted beta(2)-keggin-type polyoxometalate doped with polypyrrole and Fe3O4 on the surface of MXene. Polyoxometalate and HCl as a proton acid doped polypyrrole, with anions attached to the main chain, could adjust the electromagnetic parameters, making the nanocomposites material easily achieve the best conductivity and impedance matching; Fe3O4 introduced magnetic loss, and the freedom of movement of Fe2+ and Fe3+ caused multiple polarization; dipole polarization was induced by defects, dipoles and dangling bonds in nanocomposites; the charge accumulated at the three phase interface and led to interfacial polarization. We had conducted research on the absorbing properties of nanocomposites with different as-prepared unitary to ternary products, loading rates and component proportion. When the filling level was 45 wt%, an optimal reflection loss value of MXene/PPy@beta(2)-SiW11Co/(FeO4)-O-3 nano composites at only 1.7 mm reached up to-62.6 dB, and the effective absorption bandwidth of 9 GHz could be obtained at the low thickness range of 1.5-2.9 mm. These results demonstrated that the prepared nano composites were expected to be a promising electromagnetic wave absorber with thin thickness and high absorption intensity.
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