posted on 2024-01-26, 03:29authored byXiao Lian, Rui Chang, Gang Huang, Yanqiu Peng, Kaixuan Wang, Juzhou Zhang, Bangben Yao, Helin Niu
With the rapid development of information technology,
the encrypted
storage of information is becoming increasingly important for human
life. The luminescent materials with a color-changed response under
physical or chemical stimuli are crucial for information coding and
anticounterfeiting. However, traditional fluorescent materials usually
face problems such as a lack of tunable fluorescence, insufficient
surface-adaptive adhesion, and strict synthesis conditions, hindering
their practical applications. Herein, a series of luminescent lanthanide
hybrid organogels (Ln-MOGs) were rapidly synthesized using a simple
method at room temperature through the coordination between lanthanide
ions and 2,6-pyridinedicarboxylic acid and 5-aminoisophthalic acid.
And the multicolor fluorescent inks were also prepared based on the
Ln-MOG and hyaluronic acid, with the advantages of being easy to write,
color-adjustable, and water-responsive discoloration, which has been
applied to paper-based anticounterfeiting technology. Inspired by
the responsiveness of the fluorescent inks to water, we designed a
logic system that can realize single-input logic operations (NOT and
PASS1) and double-input logic operations (NAND, AND, OR, NOR, XOR).
The encryption of a binary code can be actualized utilizing different
luminescent response modes based on the logic circuit system. By adjusting
the energy sensitization and luminescence mechanism of lanthanide
ions in the gel structure, the information reading and writing ability
of the fluorescent inks were verified, which has great potential in
the field of multicolor pattern anticounterfeiting and information
encryption.