2020 Help me understand this report
Nanogap Structures: Large‐Scale Sub‐1‐nm Random Gaps Approaching the Quantum Upper Limit for Quantitative Chemical Sensing (Advanced Optical Materials 24/2020)
Abstract: Metallic nanostructures with nanogap features can confine electromagnetic fields into extremely small volumes. In particular, as the gap size is scaled down to sub-nanometer regime, the quantum effects for localized field enhancement reveal the ultimate capability for light-matter interaction. Although the enhancement factor approaching the quantum upper limit has been reported, the grand challenge for surface enhanced vibrational spectroscopic sensing remains in the inherent randomness, preventing uniformly d…
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