Yellow-Emissive Carbon Dots with Long-Lifetime Room-Temperature Phosphorescence for Information Encryption and Bioimaging

Abstract: Long-lifetime room-temperature phosphorescence (RTP) materials have various applications in many fields due to their long-lived emission and large signal-to-noise ratio. However, it is not easy to attain long-lifetime RTP materials owing to the spin-forbidden nature of triplet exciton transitions. Herein, yellow phosphorescence carbon-dot-based composites embedded in a MgO matrix (MgCDs) have been developed, and the lifetimes were up to 1.81 s (more than 11 s to the naked eye) in a solid state and 254 ms (more… Show more

“…To achieve solid-state fluorescence and afterglow, one approach is to encapsulate CDs into a matrix with a rigid structure, such as urea/melamine, 15 silica, 16 boric acid (BA), 17 inorganic salts, 18 zeolites, 19 biomass, 20 or polymers. 21 The realization and improvement of solid-state fluorescence and afterglow of CDs can be achieved through a combination of hydrogen, ionic and covalent bonding interactions and synergistic effects (Fig.…”

Recent advances in fluorescence and afterglow of CDs in matrices

“…To achieve solid-state fluorescence and afterglow, one approach is to encapsulate CDs into a matrix with a rigid structure, such as urea/melamine, 15 silica, 16 boric acid (BA), 17 inorganic salts, 18 zeolites, 19 biomass, 20 or polymers. 21 The realization and improvement of solid-state fluorescence and afterglow of CDs can be achieved through a combination of hydrogen, ionic and covalent bonding interactions and synergistic effects (Fig.…”

Recent advances in fluorescence and afterglow of CDs in matrices

Multiple confinement-limited activation and defect effect co-triggered the ultra-long lifetime of carbon dots

Room temperature phosphorescent carbon dot composites in aqueous solutions: synthesis, properties, and tumor diagnosis and therapy