Metamaterial absorbers have been widely studied and continuously concerned owing to
their excellent resonance features of ultra‐thin thickness, light‐weight, and high absorbance …

The emergence of metamaterials and their continued prosperity have built a powerful
working platform for accurately manipulating the behavior of electromagnetic waves …

Since the first demonstration, remarkable progress has been made in the theoretical
analysis, structural design, numerical simulation, and potential applications of metamaterial …

Electromagnetic wave absorbing materials play an increasingly important role in consumer
electronics and military defense. The remarkable merits of atomically thin graphene …

Tunable terahertz (THz) functional devices have exhibited superior performances due to the
use of active materials, such as liquid crystals, graphene, and semiconductors. However, the …

The advent of graphene has opened new avenues for the design of high-performance
metamaterial devices, particularly in the realm of electromagnetic absorption applications …

In this paper, we design a polarization-independent and angle-insensitive broadband THz
graphene metamaterial absorber based on the surface plasmon-polaritons resonance. Full …

The rapid development of terahertz technology is accompanied by serious electromagnetic
pollution, and it is extremely imminent to prepare more practical terahertz absorbers …

Being a new class of two dimensional (2D) metal carbides, borides, and nitrides, MXenes
comprise one of the largest families of 2D nanomaterials that provide huge possibilities in …

We proposed a dual-controlled broadband terahertz (THz) absorber based on graphene
and Dirac semimetal. Calculated results show that the absorptance over 90% is achieved in …