Qianming Li scite author profile

Ingenious microstructure design and a suitable multicomponent strategy are still challenging for advanced electromagnetic wave absorbing (EMA) materials with strong absorption and a broad effective absorption bandwidth (EAB) at thin sample thickness and low filling level. Herein, a three-dimensional (3D) dielectric Ti3C2T x MXene/reduced graphene oxide (RGO) aerogel anchored with magnetic Ni nanochains was constructed via a directional-freezing method followed by the hydrazine vapor reduction process. The oriented cell structure and heterogeneous dielectric/magnetic interfaces benefit the superior absorption performance by forming perfect impedance matching, multiple polarizations, and electric/magnetic-coupling effects. Interestingly, the prepared ultralight Ni/MXene/RGO (NiMR-H) aerogel (6.45 mg cm–3) delivers the best EMA performance in reported MXene-based absorbing materials up to now, with a minimal reflection loss (RLmin ) of −75.2 dB (99.999 996% wave absorption) and a broadest EAB of 7.3 GHz. Furthermore, the excellent structural robustness and mechanical properties, as well as the high hydrophobicity and heat insulation performance (close to air), guarantee the stable and durable EMA application of the NiMR-H aerogel to resist deformation, water or humid environments, and high-temperature attacks.

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Stretchable conductive nonwoven fabrics with self-cleaning capability for tunable wearable strain sensor

Liu

et al. 2019

Nano Energy

278

166

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Flexible conductive Ag nanowire/cellulose nanofibril hybrid nanopaper for strain and temperature sensing applications

et al. 2020

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Qianming Li

Electrically conductive polymer composites for smart flexible strain sensors: a critical review

Multifunctional Magnetic Ti₃C₂T_x MXene/Graphene Aerogel with Superior Electromagnetic Wave Absorption Performance

Stretchable conductive nonwoven fabrics with self-cleaning capability for tunable wearable strain sensor

Flexible conductive Ag nanowire/cellulose nanofibril hybrid nanopaper for strain and temperature sensing applications

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Qianming Li

Electrically conductive polymer composites for smart flexible strain sensors: a critical review

Multifunctional Magnetic Ti3C2Tx MXene/Graphene Aerogel with Superior Electromagnetic Wave Absorption Performance

Stretchable conductive nonwoven fabrics with self-cleaning capability for tunable wearable strain sensor

Flexible conductive Ag nanowire/cellulose nanofibril hybrid nanopaper for strain and temperature sensing applications

Contact Info

Product

Resources

About

Multifunctional Magnetic Ti₃C₂T_x MXene/Graphene Aerogel with Superior Electromagnetic Wave Absorption Performance