Here, we report on the development of a wide field Raman microscope which significantly improves the speed of acquisition at selected spectral range with spatial resolution in the range of ~200 nm over large field of view. This is achieved by analyzing small fluctuations in a large time-series of Raman images with a stochastic optical reconstruction microscopy (STORM) protocol in order to localize the molecules. We demonstrate the potential of this microscope by analyzing distinct samples such of patterned Silicon, polystyrene microspheres on Silicon wafer and graphene on Silicon/Silicon dioxide substrate.
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