This conference presentation was prepared for the Plasmonics: Design, Materials, Fabrication, Characterization, and Applications XX conference at SPIE Optics + Photonics 2022.
Large-area plasmonic metasurfaces have attracted interest as potential tools for a wide range of applications, from colorchanging glass to improved efficiency of solar cells. These potential applications necessitate the capability to fabricate such surfaces at scale. One potential approach to resolve this issue is to use nanoimprint lithography to mold a metasurface structure and then use chemically synthesized nanoparticles as the metallic elements. By combining aluminum nanoparticles with electrophoretic deposition, a low-cost method of scalable fabrication could be achieved.
Substantial effort has been invested in generating narrow bandwidth visible colors from metasurfaces using a wide variety of geometries and materials. In this work we continue these explorations and demonstrate how a combination of a plasmonic Fano resonance and a Bragg reflector can contribute to the generation of narrowband visible colors. We demonstrate active tuning of these colors by stretching the array in the x- and y- directions and the reflector in z- to shift the colorimetric response of both elements. The combination of these two types of photonic structures allows for substantially increased flexibility in design and color-space tuning. Additionally, by fabricating these structures at scale, this methodology could prove useful towards the manufacture of agile metasurface color pixels
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