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Background-Free Detection of Single 5 nm Nanoparticles through Interferometric Cross-Polarization Microscopy
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2011
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NanoparticlesSingle Molecule DetectionNanosensorsBackground-free DetectionEngineeringMetal NanoparticlesMicroscopyBiomedical EngineeringMicroscopy MethodMetal ParticlesNanometrologyNanosensorLight MicroscopyMolecular ImagingBiophysicsPlasmonic MaterialNanotechnologySingle 5Polarization ImagingSingle-molecule DetectionNanomaterialsBiomedical ImagingApplied PhysicsNm NanoparticlesMedicine
Metal nanoparticles play a key role in sensing and imaging. Here we demonstrate the detection of metal particles down to 5 nm in size with a signal-to-noise ratio of ∼7 using interferometric cross-polarization microscopy at ultralow excitation powers (∼1 μW) compatible with single molecule detection. The method is background-free and induces no heating as it operates far from plasmonic resonance. The combination of unlimited observation time and protein-sized metal nanoparticles has great potential for biophysical applications.