Optical Janus effect in large area multilayer plasmonic films
Niken Priscilla, Dan Smith, Enrico Della Gaspera, Jingchao Song, Lukas Wesemann, Timothy James, Ann Roberts
Adv. Photonics Res. 3: 2100333 (2022). https://doi.org/10.1002/adpr.202100333
Plasmonic and other nanoparticles have attracted considerable interest for their role in structural coloration. The optical “Janus” effect, where the color of light reflected from a partially transmitting film depends on whether the device is viewed from the substrate or the coating side, is observed using a variety of nanostructured films. Herein, the optical Janus effect produced by homogeneous thin-film structures comprising only four layers of three different materials with a total thickness less than 300nm is demonstrated. An asymmetric Fabry–Perot (FP) nanocavity is formed with a dielectric film bounded by two different metal films of nanoscale thickness. The semitransparent device has a transmitted color that is independent of the viewing direction. A broad color palette is available through the selection of various thicknesses and film materials. In addition to the directional optical effect, the device possesses iridescence properties and can generate images by selective removal of regions of one of the metallic films using simple photolithography. From a manufacturing perspective, this device is scalable and holds significant promise for applications in architecture, producing decorative features, and the development of overt and covert security features.
Our expertise and capabilities in this research
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Dan Smith
Dan leads the nanofabrication capability for the MCFP. Situated in the heart of ANFF-Vic at the Melbourne Centre for Nanofabrication (MCN), Dan has expertise across the most extensive fabrication capability in Melbourne, and can help you from design to device realisation.
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Nanofabrication
The MCFP Nanofabrication platform supports University of Melbourne (UoM) researchers accessing the Melbourne Centre for Nanofabrication (MCN) located in Clayton