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Super-Photostability and Super-Brightness of EC5 Dyes for Super-Resolution Microscopy in the Deep Near-Infrared Spectral Region

Xicun Lu, Xiaoli Zhuang, Yan Dong, Chong Chen, Ruwei Wei, Wei‐Chao Chen, Hui Li, Xiao Luo, Xuhong Qian, Youjun Yang

2023Chemistry of Materials18 citationsDOI

Abstract

The confocal and super-resolution imaging has become routine for the visible spectral region, but not for the deep near-infrared (NIR) region (800–1000 nm) due to the lack of bright and ultraphotostable fluorophores. We devised a premium fluorochromic scaffold ( EC5 ) spectrally active in this region and further optimized it for super-resolution imaging by rational and systematic molecular engineering over the push–pull headgroups. EC5j maximally absorbs/emits at 835/873 nm and offers a superior brightness of 38070 cm –1 M –1 and superior photostability. Using two home-built microscopes with deep-NIR capability, i.e., confocal and structured-illumination microscopes, we demonstrated that super-resolution 2D and 3D-microscopy is now practical with EC5j . In particular, EC5j -adsorbed polystyrene beads furnished a notable spatial resolution of 175 nm with structure-illumination microscopy (SIM) imaging, as compared to the theoretical diffraction limit of 336 nm. Proof-of-concept applications included live-cell confocal imaging of mitophagy, SIM imaging of mitochondria, and deconvolution-based confocal sectioning of cell structures and brain vasculature. The revolutionary expansion of the imaging spectral window brings the field new tools and new insights.

Topics & Concepts

ConfocalMicroscopyMaterials scienceOpticsResolution (logic)MicroscopeBrightnessBright-field microscopySpectral imagingConfocal microscopyMultispectral imageSuper-resolution microscopyNear-infrared spectroscopyScanning confocal electron microscopyPhysicsComputer scienceArtificial intelligenceComputer visionAdvanced Fluorescence Microscopy TechniquesNanoplatforms for cancer theranosticsPhotoacoustic and Ultrasonic Imaging