We rationally designed and synthesized a hypoxia-responsive probe TBTO featuring four diethylamino <i>N</i>-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. <i>In vitro</i> and <i>in vivo</i> assessments revealed the responsiveness of TBTO in a reductive environment and its NIR fluorescence and PA dual-mode imaging ability.
Andrew L. Doedens, Christian Stockmann, Mark P. Rubinstein, Debbie Liao, Na Zhang, David G. DeNardo, Lisa M. Coussens, Michael Karin, Ananda W. Goldrath, Randall S. Johnson
David G. DeNardo, Lisa M. Coussens, Michael Karin, Ananda W. Goldrath, Randall S. Johnson, Andrew L. Doedens, Christian Stockmann, Mark P. Rubinstein, Debbie Liao, Na Zhang
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