Both short-wave infrared (SWIR: 900-1700 nm) and near-infrared (NIR: 650-900 nm) luminescence possess lower optical scattering and higher signal-to-noise in deep tissues than conventional luminescence, gaining increasing attention in biomedicine. Herein, we designed mesoporous silica-coated Yb-doped magnesium germanate nanoparticles (mMGOs) with excellent two-in-one NIR and SWIR persistent luminescence after X-ray irradiation by simply regulating the valence of rare-earth ions, which also possess high cargo loading and a controlled release profile in the tumor region. The investigations in vitro and in vivo showed that mMGOs were repeatedly activated to realize rechargeable persistent luminescence imaging for tracking cargo delivery in mice. Moreover, the stimulative drug-release profile inhibited tumor growth effectively. Both of the X-ray excited two-in-one NIR and SWIR persistent luminescence imaging not only allowed for rechargeable imaging of deep tumors but also achieved long-term tracking with a remarkable tumor inhibition effect.
Keywords: X-ray-induced persistent luminescence; long-term tracking; rechargeable persistent imaging; short-wave infrared; stimulative release.