Optimizing supramolecular fluorescent materials with responsive multi-color tunability toward soft biomimetic skins

Many natural organisms have evolved to display responsive biofluorescence color changes that facilitate excellent environmental adaptability for camouflage, concealment, protection or signaling. Such interesting phenomena have inspired the development of various artificial fluorescence-color changeable materials with versatile uses, such as responsive displays, encryption, and sensing. However, it is challenging to replicate the dynamic fluorescence color camouflage capacities of living organisms by using soft synthetic materials, but such systems can work as soft biomimetic skins to enhance the function of certain machines (such as robots or prosthetics). Herein, we report a kind of robust supramolecular fluorescent soft material with both multi-color tunability and room-temperature self-healing features on the basis of synergistic multiple hydrogen bonding and dynamic lanthanide coordination interactions. Soft biomimetic camouflage and display skins were further demonstrated, which can be conformally worn on commercial robots to help them merge into different-colored environments or enable on-demand information display in response to a subtle interplay between several environmental stimuli (e.g., humidity, metal ions). This work has made fluorescence color changeable biomimetic skins accessible and is expected to inspire the development of powerful fluorescent materials with as-not-yet-imaginable performance.

Automated summary

Many natural organisms have evolved to display responsive biofluorescence color changes for various purposes, inspiring the development of artificial fluorescence-color changeable materials. Replicating the dynamic fluorescence color camouflage capacities of living organisms using soft synthetic materials is challenging, but such systems can enhance the function of machines like robots or prosthetics. The reported supramolecular fluorescent soft material with multi-color tunability and self-healing features has potential applications in soft biomimetic camouflage and display skins for machines, offering new possibilities for powerful fluorescent materials.