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Super-resolution microscopy enabled by high-efficiency surface-migration emission depletion

Rui Pu, Qiuqiang Zhan, Xingyun Peng, Siying Liu, Xin Guo, Liangliang Liang, Xian Qin, Ziqing Zhao, Xiaogang Liu

2022Nature Communications48 citationsDOIOpen Access PDF

Abstract

Abstract Nonlinear depletion of fluorescence states by stimulated emission constitutes the basis of stimulated emission depletion (STED) microscopy. Despite significant efforts over the past decade, achieving super-resolution at low saturation intensities by STED remains a major technical challenge. By harnessing the surface quenching effect in NaGdF 4 :Yb/Tm nanocrystals, we report here high-efficiency emission depletion through surface migration. Using a dual-beam, continuous-wave laser manipulation scheme (975-nm excitation and 730-nm de-excitation), we achieved an emission depletion efficiency of over 95% and a low saturation intensity of 18.3 kW cm −2 . Emission depletion by surface migration through gadolinium sublattices enables super-resolution imaging with sub-20 nm lateral resolution. Our approach circumvents the fundamental limitation of high-intensity STED microscopy, providing autofluorescence-free, re-excitation-background-free imaging with a saturation intensity over three orders of magnitude lower than conventional fluorophores. We also demonstrated super-resolution imaging of actin filaments in Hela cells labeled with 8-nm nanoparticles. Combined with the highly photostable lanthanide luminescence, surface-migration emission depletion (SMED) could provide a powerful mechanism for low-power, super-resolution imaging or biological tracking as well as super-resolved optical sensing/writing and lithography.

Topics & Concepts

STED microscopyMicroscopyStimulated emissionMaterials scienceLuminescenceSaturation (graph theory)PhotobleachingFluorescenceExcitationOpticsLaserAutofluorescenceOptoelectronicsSuper-resolution microscopyFluorescence microscopePhysicsQuantum mechanicsMathematicsCombinatoricsAdvanced Fiber Laser TechnologiesPhotorefractive and Nonlinear OpticsTerahertz technology and applications