Counterfeiting
is a global epidemic that is compelling the development of new anticounterfeiting
strategy. Herein, we report a novel multiple anticounterfeiting encoding
strategy of invisible fluorescent quick response (QR) codes with emission
color as information storage unit. The strategy requires red, green,
and blue (RGB) light-emitting materials for different emission colors
as encrypting information, single excitation for all of the emission
for practicability, and ultraviolet (UV) excitation for invisibility
under daylight. Therefore, RGB light-emitting nanoscale metal–organic
frameworks (NMOFs) are designed as inks to construct the colorful
light-emitting boxes for information encrypting, while three black
vertex boxes were used for positioning. Full-color emissions are obtained
by mixing the trichromatic NMOFs inks through inkjet printer. The
encrypting information capacity is easily adjusted by the number of
light-emitting boxes with the infinite emission colors. The information
is decoded with specific excitation light at 275 nm, making the QR
codes invisible under daylight. The composition of inks, invisibility,
inkjet printing, and the abundant encrypting information all contribute
to multiple anticounterfeiting. The proposed QR codes pattern holds
great potential for advanced anticounterfeiting.