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Temperature Tunable 4D Polymeric Photonic Crystals

Isabella De Bellis, Daniele Martella, Camilla Parmeggiani, Diederik S. Wiersma, Sara Nocentini

2023Advanced Functional Materials30 citationsDOIOpen Access PDF

Abstract

Abstract Photonic crystals owe their multitude of optical properties to the way their structure creates interference effects. It is therefore possible to influence the photonic response by acting on their physical structure. In this article, tunable photonic crystals made by elastic polymers that respond to their environment are explored, in particular with a physical deformation under temperature variation. This creates a feedback process in which the photonic response depends on its physical structure, which itself is influenced by the environmental changes. By using a multi‐photon polymerization process specifically optimized for soft responsive polymers such as Liquid Crystalline Networks, highly resolved, reproducible, and mechanically self‐standing photonic crystals are fabricated. The physical structure of the 3D woodpile can be tuned by an external temperature variation creating a reversible spectral tuning of 50 nm in the telecom wavelength range. By comparing these results with finite element calculations and temperature induced shape‐change, it is confirmed that the observed tuning is due to an elastic deformation of the structure. The achieved nanometric patterning of tunable anisotropic photonic materials will further foster the development of reconfigurable photonic crystals with point defects acting as tunable resonant cavities and, more in general, of 4D nanostructures.

Topics & Concepts

Materials sciencePhotonicsPhotonic crystalOptoelectronicsPhotonic metamaterialAnisotropyPolymerWavelengthNanostructureDeformation (meteorology)NanotechnologyOpticsComposite materialPhysicsPhotonic Crystals and ApplicationsAdvanced Materials and MechanicsLiquid Crystal Research Advancements
Temperature Tunable 4D Polymeric Photonic Crystals | Litcius