International audienceProducing ultrathin light absorber layers is attractive towards the integration of lightweight planar components in electronic, photonic, and sensor devices. In this work, we report the experimental demonstration of a thin gold (Au) metallic metasurface with near-perfect visible absorption (~ 95 %). Au nanoresonators possessing heights from 5-15 nm with sub-50 nm diameters were engineered by block copolymer (BCP) templating. The Au nanoresonators were fabricated on an alumina (Al2O3) spacer layer and a reflecting Au mirror, in a film-coupled nanoparticle design. The BCP nanopatterning strategy to produce desired heights of Au nanoresonators was tailored to achieve nearperfect absorption at ≈ 600 nm. The experimental in...
Perfect absorbers that can efficiently absorb electromagnetic waves over a broad spectral range are ...
An optical metamaterial, operating in between the MID/IR and the visible domain, which uses the effe...
Strategies to confine electromagnetic field within ultrathin film emerge as essential technologies f...
International audienceProducing ultrathin light absorber layers is attractive towards the integratio...
International audienceProducing ultrathin light absorber layers is attractive towards the integratio...
International audienceProducing ultrathin light absorber layers is attractive towards the integratio...
International audienceProducing ultrathin light absorber layers is attractive towards the integratio...
International audienceProducing ultrathin light absorber layers is attractive towards the integratio...
Producing ultrathin light absorber layers is attractive towards the integration of lightweight plana...
Producing ultrathin light absorber layers is attractive towards the integration of lightweight plana...
The growing interest in solar energy during recent years has spurred on the development of high-effi...
The growing interest in solar energy during recent years has spurred on the development of high-effi...
The growing interest in solar energy during recent years has spurred on the development of high-effi...
Metamaterials are artificial materials designed to create optical properties that do not exist in na...
Metamaterials are artificial materials designed to create optical properties that do not exist in na...
Perfect absorbers that can efficiently absorb electromagnetic waves over a broad spectral range are ...
An optical metamaterial, operating in between the MID/IR and the visible domain, which uses the effe...
Strategies to confine electromagnetic field within ultrathin film emerge as essential technologies f...
International audienceProducing ultrathin light absorber layers is attractive towards the integratio...
International audienceProducing ultrathin light absorber layers is attractive towards the integratio...
International audienceProducing ultrathin light absorber layers is attractive towards the integratio...
International audienceProducing ultrathin light absorber layers is attractive towards the integratio...
International audienceProducing ultrathin light absorber layers is attractive towards the integratio...
Producing ultrathin light absorber layers is attractive towards the integration of lightweight plana...
Producing ultrathin light absorber layers is attractive towards the integration of lightweight plana...
The growing interest in solar energy during recent years has spurred on the development of high-effi...
The growing interest in solar energy during recent years has spurred on the development of high-effi...
The growing interest in solar energy during recent years has spurred on the development of high-effi...
Metamaterials are artificial materials designed to create optical properties that do not exist in na...
Metamaterials are artificial materials designed to create optical properties that do not exist in na...
Perfect absorbers that can efficiently absorb electromagnetic waves over a broad spectral range are ...
An optical metamaterial, operating in between the MID/IR and the visible domain, which uses the effe...
Strategies to confine electromagnetic field within ultrathin film emerge as essential technologies f...