Abstract
Phosphors emitting visible and near-infrared persistent luminescence have been explored extensively owing to their unusual properties and commercial interest in their applications such as glow-in-the-dark paints, optical information storage, and in vivo bioimaging. However, no persistent phosphor that features emissions in the ultraviolet C range (200–280 nm) has been known to exist so far. Here, we demonstrate a strategy for creating a new generation of persistent phosphor that exhibits strong ultraviolet C emission with an initial power density over 10 milliwatts per square meter and an afterglow of more than 2 h. Experimental characterizations coupled with first-principles calculations have revealed that structural defects associated with oxygen introduction-induced anion vacancies in fluoride elpasolite can function as electron traps, which capture and store a large number of electrons triggered by X-ray irradiation. Notably, we show that the ultraviolet C afterglow intensity of the yielded phosphor is sufficiently strong for sterilization. Our discovery of this ultraviolet C afterglow opens up new avenues for research on persistent phosphors, and it offers new perspectives on their applications in terms of sterilization, disinfection, drug release, cancer treatment, anti-counterfeiting, and beyond.
Highlights
Persistent luminescence is an optical phenomenon in which a material stores excitation energy in excited states and the resulting luminescence lasts for an appreciable time after the excitation has stopped[1,2]
We chose elpasolite Cs2NaYF6 as the host and Pr3+ ions as emitters with the ideas that (1) the Cs element has a strong X-ray absorption capability that makes the system capable of charging by X-ray irradiation, (2) Cs2NaYF6 has a large bandgap and a propensity for the formation of structural defects that are likely to act as electron traps[32], and (3) the 4f5d–4f2 transition of Pr3+ ions can result in ultraviolet C (UVC) emission[29,30,31]
In this double perovskite structure, both Y and Na coordinate with six fluorine atoms, and doped Pr3+ ions are expected to substitute for Y3+ ions (Supplementary Fig. 3)
Summary
Persistent luminescence is an optical phenomenon in which a material stores excitation energy in excited states and the resulting luminescence lasts for an appreciable time after the excitation has stopped[1,2]. Cr3+-doped zinc gallogermanates that can be employed for the in vivo biological imaging and the in vitro targeting of cancerous cells[16,17,18,19,20,21,22,23,24,25,26]. Despite these significant achievements, most of the persistent phosphors reported far luminesce in the visible and NIR spectral regions[27], and no persistent phosphors exhibiting ultraviolet C (UVC) luminescence are known to exist.
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