The Beginner's Guide to Chiral Plasmonics: Mostly Harmless Theory and the Design of Large‐Area Substrates

Goerlitzer, Eric S. A.; Puri, Aniket S.; Moses, Jebin J.; Poulikakos, Lisa V.; Vogel, Nicolas

doi:10.1002/adom.202100378

Cited by 65 publications

(59 citation statements)

References 343 publications

(879 reference statements)

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“…Importantly, a 2D chiral structure in a nonhomogeneous medium has no mirror symmetry with respect to the horizontal plane and is thus fully 3D chiral. [ 16,66 ] Overall, we summarize that our lattices possess optical chirality for the directional transmittance for both homogeneous and heterogeneous environments, and the heterogeneous system shows typically larger peak values for

g_{\max}

.…”

Section: Chiral “Diatomic” Latticesmentioning

confidence: 68%

“…Over the last years, spirals, [ 5 ] helices, [ 6–8 ] twisted nanorods, [ 9,10 ] helicuboids, [ 11 ] and chiral assemblies of achiral nanoobjects [ 12–15 ] have been engineered and studied; one can see more examples in recent reviews. [ 16–18 ] These chiral materials can be used as circular polarizers, [ 8 ] polarization‐sensitive photodetectors, [ 19,20 ] and photocatalysts. [ 6,10 ]…”

Section: Introductionmentioning

confidence: 99%

“…Over the last years, spirals, [5] helices, [6][7][8] twisted nanorods, [9,10] helicuboids, [11] and chiral assemblies of achiral nanoobjects [12][13][14][15] have been engineered and studied; one can see more examples in recent reviews. [16][17][18] These chiral materials can be used as circular polarizers, [8] polarization-sensitive photodetectors, [19,20] and photocatalysts. [6,10] Along with single chiral nanocrystals and assemblies, the field of chiral nanooptics covers the study of periodic 2D arrays of nanoobjects with strong optical chirality.…”

mentioning

confidence: 99%

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Engineering Strongly Chiral Plasmonic Lattices with Achiral Unit Cells for Sensing and Photodetection

Movsesyan

Besteiro

Kong

et al. 2021

Advanced Optical Materials

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Although the concept of chirality has its origin in chemistry, the field of photonics is actively exploring and utilizing it. A new family of 2D chiral lattices constructed from fully achiral unit cells is introduced here. This type of chiral structure differs fundamentally from previously reported arrays made of chiral unit cells. In this system, circular dichroism (CD) appears due to the electromagnetic interaction between unit cells and the formation of lattice plasmons (LP). Importantly, the CD is strongly enhanced for anisotropic rectangular lattices, whereas the chiral signal in square lattices is found to be relatively weak. The results cover two configurations. The first has an index‐matched environment, and the second includes an asymmetric arrangement of refractive indices. The index‐matched model is preferable and supports ultrasharp LP resonances. Overall, excellent control of the spectral position and broadening of the CD peaks is also demonstrated by tuning the geometry and matrix refractive indices. These results can be useful for engineering polarization filters and chiral biosensors.

show abstract

g_{\max}

.…”

Section: Chiral “Diatomic” Latticesmentioning

confidence: 68%

Section: Introductionmentioning

confidence: 99%

mentioning

confidence: 99%

See 1 more Smart Citation

Engineering Strongly Chiral Plasmonic Lattices with Achiral Unit Cells for Sensing and Photodetection

Movsesyan

Besteiro

Kong

et al. 2021

Advanced Optical Materials

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show abstract

“… 69 It should be mentioned that such periodic arrays can show system chirality as an extrinsic property for tilted light incidence. 70 This type of optical activity is a consequence of symmetry reduction for a specific pattern orientation. Notwithstanding, if plasmonic particles with intrinsic chirality can be used as the repeating units, lattice resonances could be obtained that are chiral in nature.…”

Section: Templated Self-assembly Of Plasmonic Nps Into Chiral Morphol...mentioning

confidence: 99%

Template-assisted self-assembly of achiral plasmonic nanoparticles into chiral structures

2022

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“…An exact mathematical characterization of these structures is imperative to harness their full potential. Although theories of chiral molecules are established, theories governing metal nanoparticle assemblies, − quantum dots, − and metal nanoclusters , are still in development.…”

mentioning

confidence: 99%

Chiral Plasmonic Ellipsoids: An Extended Mie–Gans Model

Perera

Mallawaarachchi

Premaratne

2021

J. Phys. Chem. Lett.

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Mie–Gans theory optically characterizes ellipsoidal and by extension generally elongated nonchiral metal nanoparticles (MNPs) and is ubiquitous in verifying experimental results and predicting particle behavior. Recently, elongated chiral MNPs have garnered enthusiasm, but a theory to characterize their chiroptical behavior is lacking in the literature. In this Letter, we present an ab initio model for chiral ellipsoidal MNPs to address this shortcoming and demonstrate that it reduces to the general Mie–Gans model under nonchiral conditions, produces results that concur with state-of-the-art numerical simulations, and can accurately replicate recent experimental measurements. Furthermore, to gain physical insights, we analyze factors such as background medium permittivity and particle size that drive the chiroptical activity using two types of plasmonic chiral MNPs. We also demonstrate the utility of our model in metamaterial design. Generic features of our model can be extended to characterize similar elongated chiral MNPs, fueling many other variants of the current model.

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The Beginner's Guide to Chiral Plasmonics: Mostly Harmless Theory and the Design of Large‐Area Substrates

Cited by 65 publications

References 343 publications

Engineering Strongly Chiral Plasmonic Lattices with Achiral Unit Cells for Sensing and Photodetection

Engineering Strongly Chiral Plasmonic Lattices with Achiral Unit Cells for Sensing and Photodetection

Template-assisted self-assembly of achiral plasmonic nanoparticles into chiral structures

Chiral Plasmonic Ellipsoids: An Extended Mie–Gans Model

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