Publication | Closed Access
Super-Resolution SERS Imaging beyond the Single-Molecule Limit: An Isotope-Edited Approach
75
Citations
36
References
2012
Year
High ResolutionMicroscopySurface-enhanced Raman ScatteringSers Emission CentroidChemistryLight Scattering SpectroscopySuper-resolution MicroscopySuper-resolution ImagingSpatial RelationshipSuper-resolution Sers ImagingMicroscopy MethodSingle MoleculeBiophysicsNovel Imaging MethodPhysicsSuper-resolutionSingle-molecule DetectionNatural SciencesSpectroscopyBiomedical ImagingMedicineSpectroscopic Method
Super-resolution imaging of single-molecule surface-enhanced Raman scattering (SM-SERS) reveals a spatial relationship between the SERS emission centroid and the corresponding intensity. Here, an isotope-edited bianalyte approach is used to confirm that shifts in the SERS emission centroid are directly linked to the changing position of the molecule on the nanoparticle surface. By working above the single-molecule limit and exploiting SERS intensity fluctuations, the SERS centroid positions of individual molecules are found to be spatially distinct.
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