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Traditionally, the nanoscale interaction between single photon emitters and plasmonic nanostructures is
studied by relying on deterministic, near-perfect, nanoscale-control, either top-down or bottom-up.
However, these approaches are ultra-low throughput thus rendering systematic studies difficult and timeconsuming. Here, we show a highly parallelised far-field tactic, combining multiplexed super-resolution
fluorescence localization microscopy and data-driven statistical analysis, to study near-field interactions
between gold nanorods and single molecules, even at bulk concentrations. We demonstrate that ensemble-level single molecule detection allows separating individual emitters according to their coupling
strength with tailored resonant structures, which ultimately permits the reconstruction of super-resolved
2D interaction maps around individual nanoantennas.Peer ReviewedPostprint (author's final draft
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