摘要
To achieve the dynamical dual-pattern with multiplex information of complex topography and 3D fluorescence is challenging yet promising for wide applications ranging from visual bioassays,memory,smart devices to smart display.Here,we develop a convenient,reliable,and versatile method to realize the well-ordered dual-pattern with reversible topography and 3D fluorescence via a light direct-writing approach based on the wrinkle mechanism.By introducing the charge transfer(CT)interaction betweenπ-electron-rich anthracene(AN)andπ-electron-poor naphthalene diimide(NDI)into the polymer system,both modulus and fluorescence of the polymer films can be spatially regulated through the photodimerization of AN,which is controlled in-plane by photomasks,and becomes gradient in the vertical direction due to the filter effect of light.Therefore,the exposed sample displays a well-ordered complex pattern with the same topography as the applied photomask and 3D gradient change of fluorescence from red to green laterally across the layers simultaneously.The spatial cross-linking and CT interaction of the gradient layer can be controlled independently,which not only provides the reliability and reversibility of the topographical and fluorescence dual-pattern but also endows the possibility for tailoring the pattern with memory and selfhealing.These characters of the dual-pattern with reversible topography and 3D fluorescence declare the clear applications in smart multiplex displays,memory,anticounterfeiting,visual detections,and so on.
基金
The authors thank the National Nature Science Foundation of China(51773114,21704062)
the Shanghai Municipal Government(17JC1400700)for their financial support.
