Ultra-broadband solar light wave trapping by gradient cavity-thin-film metasurface

Abstract: Despite the fact that solar energy has been widely used as a renewable and clean energy source for decades, when designing solar irradiation absorbers one is generally confronted with the dilemma of choosing between higher absorption but narrowband or broadband but lower absorption, which has greatly limited the development of the solar energy industry. In this work, a gradient cavity-thin-film metasurface (GCM) made up of alternating multiple layers of titanium (Ti) and silicon dioxide (SiO2) exhibits ultra-b… Show more

“…Conventional triple-layer metal-insulator-metal (MIM) configuration with uniform top cells has been widely applied to plasmonic absorbers [12][13][14], where a thin dielectric spacer is used to enable strong plasmonic coupling between the top resonators and the metal film in the bottom. Such an absorber design can be intuitively treated as a resonator coupled to a single-input transmission line.…”

High-Performance Metamaterial Light Absorption from Visible to Near-Infrared Assisted by Anti-Reflection Coating

“…Conventional triple-layer metal-insulator-metal (MIM) configuration with uniform top cells has been widely applied to plasmonic absorbers [12][13][14], where a thin dielectric spacer is used to enable strong plasmonic coupling between the top resonators and the metal film in the bottom. Such an absorber design can be intuitively treated as a resonator coupled to a single-input transmission line.…”

High-Performance Metamaterial Light Absorption from Visible to Near-Infrared Assisted by Anti-Reflection Coating

Lithography-Free Solar Absorber Made of Multilayer w/SiO2 for Efficient Photothermal Conversion

A near-perfect metamaterial selective absorber for high-efficiency solar photothermal conversion