Issue 3, 2022

Photoelastic plasmonic metasurfaces with ultra-large near infrared spectral tuning

Abstract

Metasurfaces, consisting of artificially fabricated sub-wavelength meta-atoms with pre-designable electromagnetic properties, provide novel opportunities to a variety of applications such as light detectors/sensors, local field imaging and optical displays. Currently, the tuning of most metasurfaces requires redesigning and reproducing the entire structure, rendering them ineligible for post-fabrication shape-morphing or spectral reconfigurability. Here, we report a photoelastic metasurface with an all-optical and reversible resonance tuning in the near infrared range. The photoelastic metasurface consists of hexagonal gold nanoarrays deposited on a deformable substrate made of a liquid crystalline network. Upon photo-actuation, the substrate deforms, causing the lattice to change and, as a result, the plasmon resonance to shift. The centre wavelength of the plasmon resonance exhibits an ultra-large spectral tuning of over 245 nm, from 1490 to 1245 nm, while the anisotropic deformability also endows light-switchable sensitivity in probing polarization. The proposed concept establishes a light-controlled soft platform that is of great potential for tunable/reconfigurable photonic devices, such as nano-filters, -couplers, -holograms, and displays with structural colors.

Graphical abstract: Photoelastic plasmonic metasurfaces with ultra-large near infrared spectral tuning

Supplementary files

Article information

Article type
Communication
Submitted
24 Aug 2021
Accepted
14 Dec 2021
First published
14 Dec 2021
This article is Open Access
Creative Commons BY-NC license

Mater. Horiz., 2022,9, 942-951

Photoelastic plasmonic metasurfaces with ultra-large near infrared spectral tuning

J. Liu, H. Zeng, M. Cheng, Z. Wang, J. Wang, M. Cen, D. Luo, A. Priimagi and Y. J. Liu, Mater. Horiz., 2022, 9, 942 DOI: 10.1039/D1MH01377G

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