Method to improve the tunable capacity of time-resolved encoding to a xanthene dye.

Abstract

Conventional organic dye encoding is limited by photo-bleaching and spectral overlap, thus restricting the number of distinguishable codes that can be used in practice. The utility of a single dye for increasing additional encoding capacity has yet to be explored. To this end, we firstly report a facile, flexible and green sustainable method to maximize the time-resolved encoding capacity of the xanthene red dye, eosin. By simply adjusting the concentration, pH and viscosity of the eosin solution, eleven distinguishable populations of fluorescence lifetimes were obtained with a short lifetime range of 1.0-3.4ns, which in turn could increase the difficulty of duplication and provide extra high-level security protection. The results provide a facile strategy to increase the temporal multiplexing capacity, and may result in the reuse of existing organic dyes as lifetime-coded polymer microspheres in the fields of information security.