Light-weight and exceptional microwave absorption are two vital characteristics for
microwave absorbers in practical applications, but still face challenges. Herein, we employ a …

Lightweight and high-efficiency microwave attenuation are two major challenges in the
exploration of carbon-based absorbers, which can be achieved simultaneously by …

Microwave absorption materials are usually designed to integrate multiple heterogeneous
components containing magnetic and dielectric loss abilities, solving the electromagnetic …

Designing pure carbonaceous microwave absorbers with strong absorption capability and
broad effective absorption bandwidth (EAB) is still a challenge for efficient microwave …

The rational design of lightweight, broad‐band, and high‐performance microwave
absorbers is urgently required for addressing electromagnetic pollution issue. Metal single …

Integration of hierarchical polarizations within one nanoarchitecture combines superiorities
of strong dielectric polarization loss and matched characteristic impedance for enhancing …

Magnetic core-shell structural mesoporous carbon materials have an extensive application
prospect in microwave absorption because of their comprehensive merits of magnetic …

Carbon materials with multi-components and hollow structures can be used as promising
candidates in microwave absorption materials, however, rational design and construction of …

Enhancing the magnetic loss capacity by microstructure design remains a considerable
challenge in the microwave absorption field. Herein, a high-performance microwave …

Metal organic frameworks (MOFs) derived carbon materials have attracted much attention as
hopeful electromagnetic microwave absorbents. However, the poor impedance matching …