2018
DOI: 10.1021/acs.chemrev.8b00243
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Plasmonic Surface Lattice Resonances: A Review of Properties and Applications

Abstract: When metal nanoparticles are arranged in an ordered array, they may scatter light to produce diffracted waves. If one of the diffracted waves then propagates in the plane of the array, it may couple the localized plasmon resonances associated with individual nanoparticles together, leading to an exciting phenomenon, the drastic narrowing of plasmon resonances, down to 1–2 nm in spectral width. This presents a dramatic improvement compared to a typical single particle resonance line width of >80 nm. The very hi… Show more

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Cited by 1,117 publications
(1,124 citation statements)
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References 304 publications
(685 reference statements)
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“…In this context, surface lattice resonances (SLRs) offer a possible solution. A plasmonic SLR occurs when the plasmonic nanoparticles' LSPRs couple to the diffractive Bragg modes . In consequence of this effect, excessive electrical fields arise on the surface, which are very sensitive toward changes of the lattice spacing and the dielectric surrounding .…”
Section: Introductionmentioning
confidence: 99%
See 1 more Smart Citation
“…In this context, surface lattice resonances (SLRs) offer a possible solution. A plasmonic SLR occurs when the plasmonic nanoparticles' LSPRs couple to the diffractive Bragg modes . In consequence of this effect, excessive electrical fields arise on the surface, which are very sensitive toward changes of the lattice spacing and the dielectric surrounding .…”
Section: Introductionmentioning
confidence: 99%
“…Such narrow linewidths were shown recently for lattices with gold and silver nanoparticles. In the study of the Tamulevicˇius group, hexagonal lattices with self‐assembled silver cuboctahedra were presented with quality factors (resonance wavelength divided by linewidth) of up to 80, as compared to typical LSPR values of about 10 . The FDTD method is especially useful to calculate the response of plasmonic particles, as there is a wide range of geometries accessible through wet‐chemical synthesis.…”
Section: Introductionmentioning
confidence: 99%
“…However, when the LN ridges are arranged in an ordered array (indicated in Figure b inset), the electromagnetic fields of any single ridge may influence the response of neighboring ones. In this way, the individual ridges are coupled together forming collective lattice mode, which facilitates the narrowing and enhancement of the p and m resonances similar to that reported in the plasmonic arrays . As an example, the results of the periodic array with D=500 nm are shown in Figure b.…”
Section: Resultsmentioning
confidence: 54%
“…In this way, the individual ridges are coupled together forming collective lattice mode, which facilitates the narrowing and enhancement of the p and m resonances similar to that reported in the plasmonic arrays. [55] As an example, the results of the periodic array with D = 500 nm are shown in Figure 2b. For x-polarized incidence, both p and m are enhanced dramatically compared to the isolated single ridge response.…”
Section: Resultsmentioning
confidence: 99%
“…As has been shown recently, electric and magnetic resonances in the structures may result in directional scattering, the Kerker effect, strong nonradiative excitations (anapoles), and others. Periodic particle arrays support lattice resonances in the proximity to the wavelength where new diffraction orders appear (so‐called Rayleigh anomaly) . Lattice periods in the direction of particle emission mainly define effective electric and magnetic multipole moments taking into account the contributions from the lattice.…”
Section: Introductionmentioning
confidence: 99%