Optical mie scattering by DNA-assembled three-dimensional gold nanoparticle superlattice crystals
Optical mie scattering by DNA-assembled three-dimensional gold nanoparticle superlattice crystals
Programmable assemblies of gold nanoparticles engineered with DNA have intriguing optical properties such as Coulomb-interaction-driven strong coupling, polaritonic response in the visible range, and ultralow dispersion dielectric response in the infrared spectral range. In this work, we demonstrate the optical Mie resonances of individual microcrystals of DNA–gold nanoparticle superlattices. Broadband hyperspectral mapping of both transmission and dark-field scattering reveal a polarization-insensitive optical response with distinct spectral features in the visible and near-infrared ranges. Experimental observations are supported by numerical simulations of the microcrystals under a resonant effective medium approximation in the regime of capacitively coupled nanoparticles. The study identifies a universal characteristic optical response which is defined by a band of multipolar Mie resonances, which only weakly depend on the crystal size and light polarization. The use of gold superlattice microcrystals as scattering materials is of interest for fields such as complex nanophotonics, thermoplasmonics, photocatalysis, sensing, and nonlinear optics.
69–77
Singh, Haobijam
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Misatziou, Doxi
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Wheeler, Callum
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Buendia, Alvaro
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Giannini, Vincenzo
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Sánchez-Gil, José A.
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Werts, Martinus H.V.
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Brown, Tom
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El-Sagheer, Afaf
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Kanaras, Antonios
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Muskens, Otto
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Singh, Haobijam
02620e1e-88b7-4f50-a281-f88e6da55916
Misatziou, Doxi
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Wheeler, Callum
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Buendia, Alvaro
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Giannini, Vincenzo
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Sánchez-Gil, José A.
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Werts, Martinus H.V.
750f9843-296d-40e6-9ef0-75cae4a042cd
Brown, Tom
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El-Sagheer, Afaf
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Kanaras, Antonios
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Muskens, Otto
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Singh, Haobijam, Misatziou, Doxi, Wheeler, Callum, Buendia, Alvaro, Giannini, Vincenzo, Sánchez-Gil, José A., Werts, Martinus H.V., Brown, Tom, El-Sagheer, Afaf, Kanaras, Antonios and Muskens, Otto
(2022)
Optical mie scattering by DNA-assembled three-dimensional gold nanoparticle superlattice crystals.
ACS Applied Optical Materials, 1 (1), .
(doi:10.1021/acsaom.2c00008).
Abstract
Programmable assemblies of gold nanoparticles engineered with DNA have intriguing optical properties such as Coulomb-interaction-driven strong coupling, polaritonic response in the visible range, and ultralow dispersion dielectric response in the infrared spectral range. In this work, we demonstrate the optical Mie resonances of individual microcrystals of DNA–gold nanoparticle superlattices. Broadband hyperspectral mapping of both transmission and dark-field scattering reveal a polarization-insensitive optical response with distinct spectral features in the visible and near-infrared ranges. Experimental observations are supported by numerical simulations of the microcrystals under a resonant effective medium approximation in the regime of capacitively coupled nanoparticles. The study identifies a universal characteristic optical response which is defined by a band of multipolar Mie resonances, which only weakly depend on the crystal size and light polarization. The use of gold superlattice microcrystals as scattering materials is of interest for fields such as complex nanophotonics, thermoplasmonics, photocatalysis, sensing, and nonlinear optics.
Text
acsaom.2c00008
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More information
Accepted/In Press date: 8 September 2022
e-pub ahead of print date: 16 September 2022
Additional Information:
D.M., H.J.S., A.G.K., and O.L.M. acknowledge financial support by the Leverhulme Trust through Research Grant RPG-2018-251.
Identifiers
Local EPrints ID: 476716
URI: http://eprints.soton.ac.uk/id/eprint/476716
ISSN: 2771-9855
PURE UUID: 15bd8bd0-9546-437e-a166-6583705de316
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Date deposited: 12 May 2023 16:35
Last modified: 17 Mar 2024 03:18
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Contributors
Author:
Callum Wheeler
Author:
Alvaro Buendia
Author:
Vincenzo Giannini
Author:
José A. Sánchez-Gil
Author:
Martinus H.V. Werts
Author:
Tom Brown
Author:
Afaf El-Sagheer
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