Add to ORKGThe nanofabrication of large-area metasurfaces with tunable optoelectronic response is crucial in many fields from plasmonics to energy conversion. Here the engineering of self-organized plasmonic antennas will be demonstrated, showing their performances in photo-degradation of polluting molecules. In parallel, the capability to strongly couple light to large-area 2D semiconductor layers will be shown. Thanks to nanoscale re-shaping of the interface to form flat-optics nanogratings superior photon harvesting performances can be achieved with strong impact in photonics and energy conversion.
Advances in active manipulation of light at the nanoscale are rapidly emerging with the concept of p...
Advances in active manipulation of light at the nanoscale are rapidly emerging with the concept of p...
Optical metasurfaces, typically referred to as two-dimensional metamaterials, are arrays of engineer...
The urgent environmental and energy challenges require novel solutions for efficient light harvestin...
The engineering of self-organized plasmonic metasurfaces is demonstrated using a maskless technique ...
Photonic metasurfaces, that is, two-dimensional arrangements of designed plasmonic or dielectric res...
Optimal harvesting of the natural solar spectrum for water splitting applications has led to adaptin...
Two-dimensional metasurfaces are widely focused on for their ability for flexible light manipulation...
The interaction of electromagnetic waves with materials is at the basis of several phenomena influen...
Miniaturization is a strong demand of modern scientific technology. However, conventional optical co...
Flat optics nanoarrays based on few-layer MoS2 are homogeneously fabricated over large-area (cm2) tr...
Metamaterials—artificially structured materials with engineered electromagnetic properties—have enab...
Metasurfaces have revolutionized photonics due to their ability to shape phase fronts as requested a...
In the past few decades, the advancements in nanotechnology have significantly altered many fields o...
ABSTRACT On the basis of conformal transformation, a general strategy is proposed to design plasmoni...
Advances in active manipulation of light at the nanoscale are rapidly emerging with the concept of p...
Advances in active manipulation of light at the nanoscale are rapidly emerging with the concept of p...
Optical metasurfaces, typically referred to as two-dimensional metamaterials, are arrays of engineer...
The urgent environmental and energy challenges require novel solutions for efficient light harvestin...
The engineering of self-organized plasmonic metasurfaces is demonstrated using a maskless technique ...
Photonic metasurfaces, that is, two-dimensional arrangements of designed plasmonic or dielectric res...
Optimal harvesting of the natural solar spectrum for water splitting applications has led to adaptin...
Two-dimensional metasurfaces are widely focused on for their ability for flexible light manipulation...
The interaction of electromagnetic waves with materials is at the basis of several phenomena influen...
Miniaturization is a strong demand of modern scientific technology. However, conventional optical co...
Flat optics nanoarrays based on few-layer MoS2 are homogeneously fabricated over large-area (cm2) tr...
Metamaterials—artificially structured materials with engineered electromagnetic properties—have enab...
Metasurfaces have revolutionized photonics due to their ability to shape phase fronts as requested a...
In the past few decades, the advancements in nanotechnology have significantly altered many fields o...
ABSTRACT On the basis of conformal transformation, a general strategy is proposed to design plasmoni...
Advances in active manipulation of light at the nanoscale are rapidly emerging with the concept of p...
Advances in active manipulation of light at the nanoscale are rapidly emerging with the concept of p...
Optical metasurfaces, typically referred to as two-dimensional metamaterials, are arrays of engineer...