Synthesis and characterization MXene-Ferrite nanocomposites and its application for dying and shielding

MXene Ferrite nanocomposite or nano-hybrid are very rarely studied. Those which are studied are very efficient in the photocatalytic degradation of hazardous dyes like Congo Red Dye and invisible pollutants. For Congo Red Dye, Ti3C2-MXene/Bismuth Ferrite or La- and Mn-Co-doped Bismuth Ferrite/Ti3C2 MXene are prevalent. In this case, BiFeO3/Ti3C2Tx _ MXene showed 100 % room temperature photocatalytic activity in 42 min for the removal of CR dye. These nanocomposites are also used in advanced electromagnetic (EM) absorption. Similarly, Co-doped NiZn ferrite/polyaniline-MXene composites are broadly used in highly performing broadband EM wave absorption. Likewise, Ti3C2Tx/NiZn Ferrite Hybrids give improved electromagnetic properties than that of the pure Ti3C2Tx (2 wt% Ti3C2Tx/NiZn with 74.7 emu/g) than that of pure Ti3C2Tx with 71.4 emu/g & the electrical conductivity increased six times than that of the pure NiZn Ferrite). It is also found that MXene/Ferrite @C hybrids are used for advanced electromagnetic absorption. The maximum absorption of the bandwidth is 2.32 GHz with minimum reflection loss (RLmin) of _ 69.86 dB under 17.50 GHz frequency and 7.41 nm thickness In conclusion, the MXene-Ferrite nanocomposite or nano-hybrid are more exotic for advanced application to meet contemporary needs. In this review, we will discuss briefly these nanocomposites.

Automated summary

MXene-Ferrite nanocomposites or nano-hybrids have been rarely studied, but the ones that have been studied show high efficiency in photocatalytic degradation of Congo Red Dye and invisible pollutants. These nanocomposites are also used in advanced electromagnetic wave absorption. In conclusion, MXene-Ferrite nanocomposites have great potential for advanced applications.