Yinyue Lin

TL;DR: In this article, a series of plasmonic and metamaterial structures can work as efficient narrowband absorbers due to the excitation of plasmic or photonic resonances, providing a great potential for applications in designing selective thermal emitters, biosensing, etc.

TL;DR: A series of plasmonic and metamaterial structures can work as efficient narrow band absorbers, providing a great potential for applications in designing selective thermal emitters, bio-sensing, etc as mentioned in this paper.

TL;DR: In this article, an array of tungsten/germanium anisotropic nano-cones placed on top of a reflective substrate can absorb light at the wavelength range from 0.3 μm to 9 μm with an average absorption efficiency approaching 98%.

TL;DR: It is shown that the total absorption efficiency gradually increases when there are more periods of the metal-dielectric composite layer placed on top of the metallic substrate, and expect this work to have potential applications in solar energy harvesting and thermal emission tailoring.

TL;DR: In this article, an array of tungsten/germanium anisotropic nano-cones placed on top of a reflective substrate can absorb light at the wavelength range from 0.3 to 9 micrometer with an average absorption efficiency approaching 98%.