Single‐Particle Study: Chemical Effect on Surface Plasmon Damping in Two‐Dimensional Gold Nanoprisms

Lee, Jun-Ho; Ha, Ji Won

doi:10.1002/bkcs.11705

Cited by 4 publications

(3 citation statements)

References 27 publications

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Section: Dark-field Cp Polarimetry Experimentsmentioning

confidence: 88%

“…This proposition is supported by the recent observation made by others that dipolar plasmon resonances exhibit higher damping than quadrupole ones upon adsorption of thiols. 32 In the CP scattering model developed here, a sufficient relative increase in quadrupolar contributions will indeed achieve the CP inversion. In this paper, we have demonstrated experimentally and justified by FEA that polarimetric (high-angle collection) DF far-field microscopy with // CP illumination shows significant conversion into ⊥ CP from the scattering by metal nanoparticles, such as 300 nm spherical gold particles.…”

Section: ■ Finite Element Analysismentioning

confidence: 88%

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Circular Polarization Conversion in Single Plasmonic Spherical Particles

Khan

Brennan

et al. 2022

Nano Lett.

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Temporal and spectral behaviors of plasmons determine their ability to enhance the characteristics of metamaterials tailored to a wide range of applications, including electric-field enhancement, hot-electron injection, sensing, as well as polarization and angular momentum manipulation. We report a dark-field (DF) polarimetry experiment on single particles with incident circularly polarized light in which gold nanoparticles scatter with opposite handedness at visible wavelengths. Remarkably, for silvered nanoporous silica microparticles, the handedness conversion occurs at longer visible wavelengths, only after adsorption of molecules on the silver. Finite element analysis (FEA) allows matching the circular polarization (CP) conversion to dominant quadrupolar contributions, determined by the specimen size and complex susceptibility. We hypothesize that the damping accompanying the adsorption of molecules on the nanostructured silver facilitates the CP conversion. These results offer new perspectives in molecule sensing and materials tunability for light polarization conversion and control of light spin angular momentum at submicroscopic scale.

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Section: Dark-field Cp Polarimetry Experimentsmentioning

confidence: 88%

Section: ■ Finite Element Analysismentioning

confidence: 88%

Circular Polarization Conversion in Single Plasmonic Spherical Particles

Khan

Brennan

et al. 2022

Nano Lett.

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“…Increasingly, research efforts are geared toward better comprehending the optical properties in 2D single AuNPs with large surface areas under dark-field (DF) microscopy. [29][30][31] For instance, 2D AuNPs with large surface areas were shown to present two characteristic dipole and quadrupole resonance modes in the spectral ranges between the visible and nearinfrared. 27,28,[32][33][34][35][36] Despite the recent advances in elucidating the scattering properties of the individual AuNPs, details surrounding their optical properties remain largely ambiguous.…”

Section: Introductionmentioning

confidence: 99%

Single-particle Correlation Study: Polarization-dependent Differential Interference Contrast Imaging of Two-dimensional Gold Nanoplates

Lee

2019

ANAL. SCI.

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Questions surrounding the optical properties of two-dimensional (2D) triangular single gold nanoplates (AuNPs) remain largely unanswered. Herein, a scanning-electron microscopy-correlated single-particle study was conducted to identify polarization-dependent optical properties of AuNPs under dark-field (DF) and differential interference contrast (DIC) microscopy. AuNPs with an aspect ratio of ∼3 showed a single broad DF scattering spectrum without separation of the two dipole and quadrupole resonance modes present in 2D AuNPs. Polarization-sensitive interference properties of the individual AuNPs were revealed through periodic changes in the intensities and types of DIC images obtained. A dipole resonance mode was found to mainly contribute to the polarization-sensitive interference properties of AuNPs. Furthermore, DIC polarization anisotropy allowed us to track the real-time orientation of a dipole resonance mode of a AuNP rotating on a live cell membrane.

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