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W3089279834 endingPage "521" @default.
W3089279834 startingPage "510" @default.
W3089279834 abstract "Ti3C2Tx MXene is an excellent electromagnetic wave (EMW) absorber with excellent electrical conductivity and abundant surface functional groups. In this research, Ti3C2Tx/TiO2/PANI multi-layer composites were successfully synthesized by HCl and LiF etching, one-step hydrothermal method and in-situ polymerization. Ti3C2Tx can provide more electron transfer paths due to its unique multilayer structure and high specific surface area. The growth of TiO2 particles on the surface of Ti3C2Tx through hydrothermal reaction enhances the interface polarization, and then polyaniline (PANI) is doped on the surface of Ti3C2Tx where TiO2 particles are grown by in-situ polymerization. Due to the excellent dielectric properties and synergistic effects of the material itself, Ti3C2Tx/TiO2/PANI composites have excellent EMW absorption property. In this study, the Ti3C2Tx/TiO2/PANI composites showed the strong reflection loss (RL) of at 13.92 GHz, which was -65.61 dB, and the thickness was only 2.18 mm. Moreover, the composites also exhibit a wide absorption band, with an effective absorption bandwidth (RL < -10 dB) of 5.92 GHz (11.84 GHz to 17.76 GHz) at 2.10 mm. The results show that the Ti3C2Tx/TiO2/PANI composites are expected to become EMW absorber with thin thickness and high absorption strength." @default.
W3089279834 created "2020-10-01" @default.
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W3089279834 date "2021-02-01" @default.
W3089279834 modified "2023-10-17" @default.
W3089279834 title "Design of Ti3C2Tx/TiO2/PANI multi-layer composites for excellent electromagnetic wave absorption performance" @default.
W3089279834 cites W1981246257 @default.
W3089279834 cites W1987912354 @default.
W3089279834 cites W1988080928 @default.
W3089279834 cites W2063290594 @default.
W3089279834 cites W2089055386 @default.
W3089279834 cites W2155175869 @default.
W3089279834 cites W2164255475 @default.
W3089279834 cites W2226291091 @default.
W3089279834 cites W2277230366 @default.
W3089279834 cites W2500104160 @default.
W3089279834 cites W2528178409 @default.
W3089279834 cites W2555846304 @default.
W3089279834 cites W2587353771 @default.
W3089279834 cites W2591543035 @default.
W3089279834 cites W2608733758 @default.
W3089279834 cites W2617774015 @default.
W3089279834 cites W2620192302 @default.
W3089279834 cites W2621311301 @default.
W3089279834 cites W2752571251 @default.
W3089279834 cites W2758704771 @default.
W3089279834 cites W2782051023 @default.
W3089279834 cites W2791911439 @default.
W3089279834 cites W2797638552 @default.
W3089279834 cites W2803140469 @default.
W3089279834 cites W2898139745 @default.
W3089279834 cites W2902777118 @default.
W3089279834 cites W2914225287 @default.
W3089279834 cites W2921943826 @default.
W3089279834 cites W2949536496 @default.
W3089279834 cites W2949786492 @default.
W3089279834 cites W2965380295 @default.
W3089279834 cites W2971711640 @default.
W3089279834 cites W2972625229 @default.
W3089279834 cites W2972708652 @default.
W3089279834 cites W2980676654 @default.
W3089279834 cites W2983740825 @default.
W3089279834 cites W2985721831 @default.
W3089279834 cites W2986766340 @default.
W3089279834 cites W2988958334 @default.
W3089279834 cites W2994768587 @default.
W3089279834 cites W2997348474 @default.
W3089279834 cites W2997524218 @default.
W3089279834 cites W2998900226 @default.
W3089279834 cites W3001002572 @default.
W3089279834 cites W3003110371 @default.
W3089279834 cites W3004751124 @default.
W3089279834 cites W3008485779 @default.
W3089279834 cites W3011412980 @default.
W3089279834 cites W3012800569 @default.
W3089279834 cites W3012888616 @default.
W3089279834 cites W3016582694 @default.
W3089279834 cites W3017246573 @default.
W3089279834 cites W3018779211 @default.
W3089279834 cites W3020252118 @default.
W3089279834 cites W3023861605 @default.
W3089279834 cites W3024421350 @default.
W3089279834 cites W3026003683 @default.
W3089279834 cites W3027413257 @default.
W3089279834 cites W3033639067 @default.
W3089279834 cites W3034866890 @default.
W3089279834 cites W3034908932 @default.
W3089279834 cites W3041742854 @default.
W3089279834 cites W3043937747 @default.
W3089279834 cites W3046001002 @default.
W3089279834 cites W3082215459 @default.
W3089279834 cites W3082425669 @default.
W3089279834 cites W3084161794 @default.
W3089279834 cites W3088542302 @default.
W3089279834 doi "https://doi.org/10.1016/j.jcis.2020.09.094" @default.
W3089279834 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/33035791" @default.
W3089279834 hasPublicationYear "2021" @default.
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