A Dihydroazulene-Based Photofluorochromic AIE System for Rewritable 4D Information Encryption

Dynamic patterns based on luminescent materials play an essential role in the digital age. However, it is still challenging to develop highly emissive photofluorochromic materials with dynamic behaviors to store information with multiple characteristics. Here, we report a series of dihydroazulene-based compounds which show typical aggregation-induced emission (AIE) effect. Moreover, the photo-switching ability of the dihydroazulene units, undergoing light-induced ring-opening, enables photofluorochromic properties. The photofluorochromism also shows quantitively described responses to time and temperature via a reverse ring-closing process. Ultimately, a rewritable 4D information system, embedded with a quick response code, dot matrix with microstructures, color matrix of fluorescence, and time/temperature-dependent intensity change, is established with dynamic patterns. This work not only develops a dynamic AIE skeleton with photofluorochromic properties but also provides a new strategy for information encryption and cybernetics.

Automated summary

This study reports a dynamic pattern based on luminescent materials and develops highly emissive photofluorochromic materials with multiple characteristics. The materials exhibit aggregation-induced emission effect and photo-switching ability to achieve photofluorochromism. A rewritable 4D information system is established, incorporating quick response code, dot matrix, color matrix of fluorescence, and time/temperature-dependent intensity change.