Multiple-frequency-band metamaterial absorbers possess great application prospects,
which are usually achieved by vertically stacking or coplanar arranging several sub …

A dual-band terahertz metamaterial absorber composed of two identical square metallic
patches and an insulating medium layer on top of a continuous metallic ground is …

Detection and recognition of chemical and biological species via sensor electronics are
important not only for various sensing applications but also for fundamental scientific …

In this paper, a terahertz perfect absorber (PA) made of all-dielectric metasurface with
periodic sub-wavelength InSb micro-rod array in terahertz (THz) region was proposed …

Semiconductor BiOCl has a layered structure with ultralow lattice thermal conductivity [QD
Gibson et al., Science 373, 1017–1022 (2021)] and has potential applications in the field of …

This paper presents a multi-band terahertz superabsorber with a surface structure that
consists of a square metallic patch with a very small rectangular hole whose area is only …

Triple-band terahertz metamaterial absorber with design of miniaturization and compactness
is presented in this work. The unit cell of the terahertz absorber is formed by an analogy I …

This paper presents a scheme to achieve a broadband metamaterial absorber in the
terahertz region, which is consisted of an anti-symmetric T-shaped resonator (formed by two …

We present a simple design for a broadband tunable terahertz metasurface absorber (MSA),
which is composed of a periodic array of complementary-wheel-shaped (CWS) graphene …

Flexible electronics have seen extensive research over the past years due to their potential
stretchability and adaptability to non‐flat surfaces. They are key to realizing low‐power …