Tailorable optical properties of polymer nanodots for triple-mode fluorescence detection of nucleic acids†
Abstract
We present a triple-mode nanosensor platform for nucleic acid detection utilizing fluorescence anisotropy and Förster resonance energy transfer (FRET) strategies. The self-assembled nanoprobes serve as mass amplifiers, nanoquenchers, or nanodonors, exhibiting high FRET efficiencies (64.4–86.5%) and demonstrating excellent detection capabilities in DNA and microRNA analysis.