Probing the Mechanisms of Strong Fluorescence Enhancement in Plasmonic Nanogaps with Sub-nanometer Precision

Abstract: Plasmon-enhanced fluorescence is demonstrated in the vicinity of metal surfaces due to strong local field enhancement. Meanwhile, fluorescence quenching is observed as the spacing between fluorophore molecules and the adjacent metal is reduced below a threshold of a few nanometers. Here, we introduce a technology, placing the fluorophore molecules in plasmonic hotspots between pairs of collapsible nanofingers with tunable gap sizes at sub-nanometer precision. Optimal gap sizes with maximum plasmon enhanced flu… Show more

“…The LSPRs of noble metal NPs provide opportunities to improve the efficiency of the absorption and emission of the fluorophore (fluorescent molecules or quantum dots) via coupling with the emitters. , Thus, the bridge of the molecular absorption and emission spectra between the LSPRs of noble metal NPs and fluorophores is promising to enhance the fluorescence signal significantly. , Additionally, the fluorophore should keep a certain distance from the noble metal NP surface to avoid the energy attenuation (quenching) of the excited state. − …”

Flexible Plasmonic Biosensors for Healthcare Monitoring: Progress and Prospects

“…The LSPRs of noble metal NPs provide opportunities to improve the efficiency of the absorption and emission of the fluorophore (fluorescent molecules or quantum dots) via coupling with the emitters. , Thus, the bridge of the molecular absorption and emission spectra between the LSPRs of noble metal NPs and fluorophores is promising to enhance the fluorescence signal significantly. , Additionally, the fluorophore should keep a certain distance from the noble metal NP surface to avoid the energy attenuation (quenching) of the excited state. − …”

Flexible Plasmonic Biosensors for Healthcare Monitoring: Progress and Prospects

“…Triangular gold nanoplates (Au TNPs) are a biocompatible plasma-enhanced fluorescent substrate material with sharp tips that generate a strong electric field. 40 The plasmon resonance enhanced fluorescence [41][42][43][44] (PEF) effect of triangular gold nanoplates combined with the fluorescence enhancement of the fluorescent dye NMM by the G-quadruplex can increase the single molecule fluorescence brightness and stability of a single fluorophore, and reduce background interference, thereby obtaining high detection sensitivity in single molecule fluorescence detection. The strong localized surface plasmon resonance properties of Au TNPs have been reported.…”

Label- and enzyme-free plasmon-enhanced single molecule fluorescence detection of HIV DNA fragments based on a catalytic hairpin assembly

“…8 Fluorescent probes are very useful for optical sensing and imaging owing to their technical simplicity, fast response, and high sensitivity. [9][10][11] In particular, small molecular fluorescent probes possess tunable chemical structures, adequate water solubility, and excellent biocompatibility, thus have been studied extensively for monitoring cellular viscosity changes. [12][13][14][15][16] In this regard, fluorescent molecular rotors (FMRs) have been developed based on the twisted intramolecular charge transfer (TICT) mechanism.…”

A porphyrin-triazatruxene dyad for ratiometric two-photon fluorescent sensing of intracellular viscosity