Junhao Peng scite author profile

With the development of the fifth-generation (5G) communication technology, electromagnetic wave pollution in the military and civilian fields is becoming increasingly severe. To achieve highly efficient electromagnetic wave absorption (EMA), electromagnetic wave absorbing materials must be studied, including composites with both electric and magnetic loss mechanisms. Here, Ti3C2T x MXene@Zn–Mn ferrite (MXene@ZMF) composites were prepared by using a facile coprecipitation method incorporating magnetic ZMF nanoparticles coated onto the surface or inserted into the multilayers of MXene. The dielectric and magnetic losses and good impedance matching of these MXene@ZMF composites enhanced microwave absorption. The microwave absorption mechanism was established. The composite with 80 wt % MXene (denoted as MXene@ZMF-80%) exhibits enhanced EMA performance with a minimum reflection loss (RL min) of −69.86 dB at a frequency of 16.93 GHz and a maximum effective absorption bandwidth of 2.32 GHz. Therefore, this work provides a simple method for the design and fabrication of hybrid microwave absorbers employing dielectric and magnetic losses, beneficial for solving electromagnetic pollution problems.

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Junhao Peng

Novel ZnFe2O4@MnO2@MXene composites with ultrathin thickness and excellent electromagnetic absorption performance

Facile Preparation of Ti₃C₂T_x MXene@Zn–Mn Ferrite Composites with Enhanced Microwave Absorption Performance

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Junhao Peng

Novel ZnFe2O4@MnO2@MXene composites with ultrathin thickness and excellent electromagnetic absorption performance

Facile Preparation of Ti3C2Tx MXene@Zn–Mn Ferrite Composites with Enhanced Microwave Absorption Performance

Contact Info

Product

Resources

About

Facile Preparation of Ti₃C₂T_x MXene@Zn–Mn Ferrite Composites with Enhanced Microwave Absorption Performance