Corey Radloff scite author profile

We present a simple and intuitive picture, an electromagnetic analog of molecular orbital theory, that describes the plasmon response of complex nanostructures of arbitrary shape. Our model can be understood as the interaction or "hybridization" of elementary plasmons supported by nanostructures of elementary geometries. As an example, the approach is applied to the important case of a four-layer concentric nanoshell, where the hybridization of the plasmons of the inner and outer nanoshells determines the resonant frequencies of the multilayer nanostructure.

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Relative contributions to the plasmon line shape of metal nanoshells

Westcott

et al. 2002

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Insight into the mechanism of sidewall functionalization of single-walled nanotubes: an STM study

Kelly

Chiang

Mickelson

et al. 1999

Chemical Physics Letters

218

164

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Reduced Symmetry Metallodielectric Nanoparticles: Chemical Synthesis and Plasmonic Properties

et al. 2003

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We report a general chemical strategy for producing reduced-symmetry metallodielectric nanoparticles, nanocups, and nanocaps that combines nanoscale masking techniques and nanoparticle-seeded electroless plating. Using this approach, silica nanoparticles with a gold cup-shaped shell and, alternatively, a gold cap, are obtained. The plasmon response of both nanostructures is a sensitive function of orientation of the nanostructure with respect to the direction and polarization of incident light. This orientation dependence is examined experimentally by studying the extinction spectra of oriented nanocups and nanocaps on transparent substrates, and is also evaluated theoretically using a three-dimensional finite difference time domain (FDTD) method. † Part of the special issue "Arnim Henglein Festschrift".

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Corey Radloff

A Hybridization Model for the Plasmon Response of Complex Nanostructures

Relative contributions to the plasmon line shape of metal nanoshells

Insight into the mechanism of sidewall functionalization of single-walled nanotubes: an STM study

Reduced Symmetry Metallodielectric Nanoparticles: Chemical Synthesis and Plasmonic Properties

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