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Dual‐Mode Superresolution Imaging Using Charge Transfer Dynamics in Semiconducting Polymer Dots

Yifei Jiang, Qiongzheng Hu, Haobin Chen, Jicheng Zhang, Daniel T. Chiu, Jason McNeill

2020Angewandte Chemie International Edition32 citationsDOIOpen Access PDF

Abstract

In a conjugated polymer-based single-particle heterojunction, stochastic fluctuations of the photogenerated hole population lead to spontaneous fluorescence switching. We found that 405 nm irradiation can induce charge recombination and activate the single-particle emission. Based on these phenomena, we developed a novel class of semiconducting polymer dots that can operate in two superresolution imaging modes. The spontaneous switching mode offers efficient imaging of large areas, with <10 nm localization precision, while the photoactivation/deactivation mode offers slower imaging, with further improved localization precision (ca. 1 nm), showing advantages in resolving small structures that require high spatial resolution. Superresolution imaging of microtubules and clathrin-coated pits was demonstrated, under both modes. The excellent localization precision and versatile imaging options provided by these nanoparticles offer clear advantages for imaging of various biological systems.

Topics & Concepts

SuperresolutionDual modeCharge (physics)Dynamics (music)Mode (computer interface)Materials scienceOptoelectronicsDual (grammatical number)OpticsPhysicsNanotechnologyImage (mathematics)Computer scienceAcousticsElectronic engineeringQuantum mechanicsComputer visionEngineeringOperating systemLiteratureArtAdvanced Fluorescence Microscopy TechniquesLuminescence and Fluorescent MaterialsPhotoacoustic and Ultrasonic Imaging
Dual‐Mode Superresolution Imaging Using Charge Transfer Dynamics in Semiconducting Polymer Dots | Litcius