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Abstract
We
rationally designed and synthesized a hypoxia-responsive probe TBTO featuring
four diethylamino N-oxide groups that
could undergo bioreduction in a hypoxic microenvironment, producing TBT with a
typical D-A-D structure. It was demonstrated that TBT possesses NIR
fluorescence emission and PA signal generation, benefiting from its both AIE
property and a strong TICT effect. In
vitro and in vivo assessments
revealed the responsiveness of TBTO in a reductive environment and its NIR
fluorescence and PA dual-mode imaging ability.
