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In article number 2008722, Yang Li, Jianrong Qiu, Gang Han, and co‐workers propose a new paradigm and milestone study to enable deep‐tissue‐penetrable near‐infrared (NIR) rejuvenateable persistent luminescence. This pioneering work unravels a trap energy upconversion‐like wormhole that can reversely transition the carriers from deep traps to shallow traps.
Persistent‐luminescence phosphors (PLPs) have a wide variety of applications in the fields of photonics and biophotonics due to their ultralong afterglow lifetime. However, the existing PLPs are charged and recharged with short‐wavelength high‐energy photons or inconvenient and potentially risky X‐ray beams. To date, deep tissue penetrable NIR light has mainly been used for photostimulated afterglow...
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