SERS lock-in sampling achieves sub-Nyquist time-domain surface-enhanced Raman mapping, enabling simultaneous imaging of thousands of sensors with orders-of-magnitude higher throughput and volumetric 3D capability in biomatrices.
Emerging core–shell nanostructures for surface-enhanced Raman scattering (SERS) detection of pesticide residues
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Sub-Nyquist time-domain surface-enhanced Raman mapping
SERS lock-in sampling achieves sub-Nyquist time-domain surface-enhanced Raman mapping, enabling simultaneous imaging of thousands of sensors with orders-of-magnitude higher throughput and volumetric 3D capability in biomatrices.