Abstract 2D materials are promising but remain to be further explored, with respect to their
usage in various optoelectronic devices. Generally, 2D materials exhibit far less than ideal …

Thermal comfort of textiles plays an indispensable role in the process of human civilization.
Advanced textile for personal thermal management shapes body microclimates by merely …

At present, solar energy is widely used as a kind of clean energy. The main solar radiation
range under AM 1.5 is about 300~ 3000 nm. In this paper, we designed an efficient, ultra …

Bandwidth-tunable light absorption enhancement in monolayer graphene is practically
important for graphene-based photoelectric devices. Especially, it is still a huge challenge to …

We present an ultra-broadband perfect absorber composed of metal-insulator composite
multilayer (MICM) stacks by placing the insulator-metal-insulator (IMI) grating on the metal …

We theoretically study how to greatly improve the near-infrared light absorption of monolayer
graphene through the excitation of magnetic resonance in metamaterials. The absorption …

Recently, based on the selective excitation of the guided mode, researchers realized quasi-
bound states in the continuum (quasi-BICs) in all-dielectric compound grating waveguide …

In this paper, we have shown that perfect absorption at terahertz frequencies can be
achieved by using a composite structure where graphene is coated on one-dimensional …

We study theoretically how to simultaneously achieve narrowband and broadband light
absorption enhancement of monolayer graphene, which is placed on a metallic substrate …

We design a broadband perfect metamaterial absorber from visible to near infrared regime
consisting of monolayer Cr and Ti elliptical disks array located on the SiO 2-Au layer. The …