LAUSR

Shape memory photonic crystals may hold the key to the continuing development of smart optical coatings and next-generation all-optical integrated circuits. The reconfigurability of these materials in response to various external stimuli is not only aesthetically appealing but also fundamentally important in guiding the design of emerging reconfigurable nanophotonic devices. Here we report a new type of polymer shape memory photonic crystal (PSMPC) that shows autonomous Laplace pressure-driven, elastic modulus-dependent microstructural programming and solvent-swelling-triggered shape memory recovery, all occurring at room temperature. By varying the compositions of their constituent polymers, the elastic moduli of the PSMPCs can be systematically modulated, leading to different photonic bandgaps (i.e., diffractive colors) in response to different solvents, such as water, ethanol, and acetonitrile. The different diffractive colors represent varied strains stored in the semideformed nanoporous PSMPCs. A new...