Developing
general methods to fabricate water-dispersible and biocompatible
fluorescent probes will promote different biological visualization
applications. Herein, we report a metal-facilitated method to fabricate
ultrabright green-emissive nanodots via the one-step solvothermal
treatment of rose bengal, ethanol, and various metal ions. These metal-doped
nanodots show good water dispersity, ultrahigh photoluminescence quantum
yields (PLQYs) (e.g., the PLQY of Fe-doped nanodots (FeNDs) was ∼97%),
and low phototoxicity. Owing to the coordination effect of metal ions,
the FeNDs realize glutathione detection with outstanding properties.
Benefiting from the high endoplasmic reticulum (ER) affinity of the
chloride group, the FeNDs can act as an ER tracker with long ER imaging
capacity (FeNDs: >24 h; commercial ER tracker: ∼1 h) and
superb
photostability and can achieve tissue visualization in living Caenorhabditis elegans. The metal-doped nanodots represent
a general nanodot preparation method and may shed new light on diverse
biological visualization uses.