Hybrid nanostructures composed of graphene or other two-dimensional (2D) nanomaterials
and plasmonic metal components have been extensively studied. The unusual properties of …

Abstract The World Health Organization reported that 4.2 million deaths every year were a
direct result of exposure to ambient air pollution (NO 2, SO 2, NH 3, CO 2, CO, CH 4). There …

Thermal radiation is one of the three ways of heat transfer, among which the mid-infrared
thermal radiation has attracted much attention. At present, static control of thermal emissivity …

The photogating effect in hybrid structures has manifested itself as a reliable and promising
approach for photodetectors with ultrahigh responsivity. A crucial factor of the photogating …

We theoretically study how to achieve an ultra-broadband near-infrared absorption
enhancement of monolayer graphene through the multiple-resonator approach. The …

The ability to manipulate the absorption bandwidth has enabled a wide range of
applications, from narrowband lasing emission to broadband photodetection. Applying the …

We study the radiative heat transfer between multilayer structures made by a periodic
repetition of a graphene sheet and a hexagonal boron nitride (hBN) slab. Surface plasmons …

Spatially resolved dynamically reconfigurable control of thermal emission has
comprehensive implications for fundamental science and technological applications, such …

Achieving ultra-broadband and completely modulated absorption enhancement of
monolayer graphene in near-infrared region is practically important to design graphene …

Graphene, as a popular 2D semiconductor, with a carrier concentration that can be
extensively tailored by external stimulants, such as electric bias and photoexcitation, is a …