Investigating the plasmonics of a dipole-excited silver nanoshell: Mie theory versus finite element method

Khoury, Christopher G.; Norton, Stephen J.; Vo‐Dinh, Tuan

doi:10.1088/0957-4484/21/31/315203

Cited by 59 publications

(28 citation statements)

References 38 publications

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“…Instead of modelling the plasmon of a single polarization, our analysis features polarization-averaging over space as the nanostars were discretely rotated at six angles, a feature that has not been addressed so far. The 3D nanostar simulations were performed using the FEM, which yields solutions to the local E-field around 3D metallic nanostructures that are in excellent agreement with the theory [66, 67]. …”

Section: Resultsmentioning

confidence: 99%

Gold nanostars: surfactant-free synthesis, 3D modelling, and two-photon photoluminescence imaging

et al. 2012

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Understanding the control of the optical and plasmonic properties of unique nanosystems—gold nanostars—both experimentally and theoretically permits superior design and fabrication for biomedical applications. Here, we present a new, surfactant-free synthesis method of biocompatible gold nanostars with adjustable geometry such that the plasmon band can be tuned into the near-infrared region ‘tissue diagnostic window’, which is most suitable for in vivo imaging. Theoretical modelling was performed for multiple-branched 3D nanostars and yielded absorption spectra in good agreement with experimental results. The plasmon band shift was attributed to variations in branch aspect ratio, and the plasmon band intensifies with increasing branch number, branch length, and overall star size. Nanostars showed an extremely strong two-photon photoluminescence (TPL) process. The TPL imaging of wheat-germ agglutinin (WGA) functionalized nanostars on BT549 breast cancer cells and of PEGylated nanostars circulating in the vasculature, examined through a dorsal window chamber in vivo in laboratory mouse studies, demonstrated that gold nanostars can serve as an efficient contrast agent for biological imaging applications.

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Section: Resultsmentioning

confidence: 99%

Gold nanostars: surfactant-free synthesis, 3D modelling, and two-photon photoluminescence imaging

et al. 2012

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“…The dielectric constant of silver nanoparticles was adopted with the amended form in the simulation process [29]. The expression of the amended dielectric constant is shown as follows:…”

Section: Gersten-nitzan Theoretical Simulation Interpretation Fluoresmentioning

confidence: 99%

Fluorescence quenching of osthole by silver nanoparticles

et al. 2013

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The luminescence properties of osthole in the presence of spherical silver nanoparticles (AgNPs) with sizes ranging from 5 to 25 nm were investigated by means of fluorescence and absorption spectroscopic experiments, as well as time-resolved fluorescence experiments. Quenching of the fluorescence of osthole has been found to increase with a reduction in the sizes of the silver nanoparticles. Using the Gersten-Nitzan model, the theoretical and experimental results were compared, and the results are in good unity. Stern-Volmer quenching constants have also been calculated. Both dynamic quenching and static quenching mechanisms exist between osthole molecules and silver nanoparticles.

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“…Luminescence spectra were obtained by the Acton SpectraPro Sp-2300 Spectrophotometer with a photomultiplier tube equipped with 980 nm laser as the excitation sources. [25][26][27] The upconversion emission spectra of 0.15%Ag@NaGdF 4 :Er 3+ excited by 980 nm infrared laser are shown in Figure 2B. As shown in Figure 1A, the circular nanoparticles were uniformly distributed in the glass-ceramic matrix.…”

Section: Methodsmentioning

confidence: 94%

Fabrication and optical thermometry of transparent glass‐ceramics containing Ag@NaGdF₄: Er³⁺ core‐shell nanocrystals

Zhang

Liu

et al. 2019

J Am Ceram Soc

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Novel transparent glass‐ceramics containing Ag@NaGdF4:Er3+ core‐shell nanocrystals were fabricated successfully by a melt‐quenching method and subsequent heating. X‐ray diffraction and transmission electron microscope images show that precious metal Ag is successfully encapsulated by the NaGdF4:Er3+ nanoparticles to form an Ag@NaGdF4:Er3+ core‐shell structure in glass matrix. Compared with the NaGdF4:Er3+ glass‐ceramics, Ag@NaGdF4:Er3+ core‐shell glass‐ceramics shows the great enhancement of emission intensity. The thermometric parameters such as fluorescence emission intensity, fluorescence intensity ratios of thermally coupled levels (2H11/2/4S3/2), and temperature sensitivity can be effectively controlled by changing the Ag concentration. When 0.15 mol% Ag is co‐doped, the sensitivity of SR in Ag@NaGdF4:Er3+ core‐shell glass‐ceramics reaches a maximum value. This work presents a new method to enhance emission intensity and optical thermometry ability of NaGdF4:Er3+ through constructing Ag@NaGdF4:Er3+ core‐shell structure.

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Investigating the plasmonics of a dipole-excited silver nanoshell: Mie theory versus finite element method

Cited by 59 publications

References 38 publications

Gold nanostars: surfactant-free synthesis, 3D modelling, and two-photon photoluminescence imaging

Gold nanostars: surfactant-free synthesis, 3D modelling, and two-photon photoluminescence imaging

Fluorescence quenching of osthole by silver nanoparticles

Fabrication and optical thermometry of transparent glass‐ceramics containing Ag@NaGdF₄: Er³⁺ core‐shell nanocrystals

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Investigating the plasmonics of a dipole-excited silver nanoshell: Mie theory versus finite element method

Cited by 59 publications

References 38 publications

Gold nanostars: surfactant-free synthesis, 3D modelling, and two-photon photoluminescence imaging

Gold nanostars: surfactant-free synthesis, 3D modelling, and two-photon photoluminescence imaging

Fluorescence quenching of osthole by silver nanoparticles

Fabrication and optical thermometry of transparent glass‐ceramics containing Ag@NaGdF4: Er3+ core‐shell nanocrystals

Contact Info

Product

Resources

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Fabrication and optical thermometry of transparent glass‐ceramics containing Ag@NaGdF₄: Er³⁺ core‐shell nanocrystals