Plasmonic Silver Nanorod Sensitivity: Experiment and Simple Theoretical Treatment

Arpad Jakab; Yuriy Khalavka; Jan Becker; Andreas Trügler; Christina Rosman; Ulrich Hohenester; Carsten Sönnichsen

doi:10.1364/CLEO_QELS.2013.QM4C.6

CLEO: 2013
OSA Technical Digest (online) (Optica Publishing Group, 2013),
paper QM4C.6
•https://doi.org/10.1364/CLEO_QELS.2013.QM4C.6

Plasmonic Silver Nanorod Sensitivity: Experiment and Simple Theoretical Treatment

Arpad Jakab, Yuriy Khalavka, Jan Becker, Andreas Trügler, Christina Rosman, Ulrich Hohenester, and Carsten Sönnichsen

CLEO: QELS_Fundamental Science 2013

San Jose, California United States
9–14 June 2013
ISBN: 978-1-55752-972-5

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Hybrid Plasmonics & Novel Effects (QM4C)

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A. Jakab, Y. Khalavka, J. Becker, A. Trügler, C. Rosman, U. Hohenester, and C. Sönnichsen, "Plasmonic Silver Nanorod Sensitivity: Experiment and Simple Theoretical Treatment," in CLEO: 2013, OSA Technical Digest (online) (Optica Publishing Group, 2013), paper QM4C.6.

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Abstract

We compare the plasmonic sensitivity of silver and gold nanorods with similar resonance wavelengths by monitoring the plasmon resonance shift of single noble metal nanorods upon changing the environment from water to sucrose solution. We find that silver nanorods have 1.2 to 2 times higher sensitivity than gold in good agreement with simulations based on the boundary-elements-method (BEM). To exclude the effect of particle volume on sensitivity, we test gold rods with increasing particle width at a given resonance wavelength. Using the Drude-model of optical properties of metal together with the quasi-static approximation (QSA) for localized surface plasmons, we show that the dominant contribution to higher sensitivity of silver is the lower background polarizability of the d-band electrons and provide a simple formula for the sensitivity.

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