Computational Optimization of the Size of Gold Nanorods for Single-Molecule Plasmonic Biosensors Operating in Scattering and Absorption Modes

Abstract: We present a comprehensive computational study on the optimization of the size of gold nanorods for single-molecule plasmonic sensing in terms of optical refractive index sensitivity. We construct an experimentally relevant model of single-molecule–single-nanoparticle sensor based on spherically capped gold nanorods, tip-specific functionalization and passivation layers, and biotin-streptavidin affinity system. We introduce a universal figure of merit for the sensitivity, termed contrast-to-noise ratio (CNR), … Show more

“…For example, for ligand–receptor interactions the studied interaction should take place as close to the gold surface as possible because the LSPR is defined by the local refractive index close to the particle surface. 23 The shift of the LSPR band is therefore a direct measure of the studied interactions and is affected by the coating thickness. 23,24 For in vivo applications, GNRs have to be delivered to their intended target and larger particles are not transported as effectively.…”

“…23 The shift of the LSPR band is therefore a direct measure of the studied interactions and is affected by the coating thickness. 23,24 For in vivo applications, GNRs have to be delivered to their intended target and larger particles are not transported as effectively. 25–27 In such cases PEGylation, which is the most widely-used GNR stabiliser, might not be optimal.…”

Coating gold nanorods with self-assembling peptide amphiphiles promotes stability and facilitates in vivo two-photon imaging

“…For example, for ligand–receptor interactions the studied interaction should take place as close to the gold surface as possible because the LSPR is defined by the local refractive index close to the particle surface. 23 The shift of the LSPR band is therefore a direct measure of the studied interactions and is affected by the coating thickness. 23,24 For in vivo applications, GNRs have to be delivered to their intended target and larger particles are not transported as effectively.…”

“…23 The shift of the LSPR band is therefore a direct measure of the studied interactions and is affected by the coating thickness. 23,24 For in vivo applications, GNRs have to be delivered to their intended target and larger particles are not transported as effectively. 25–27 In such cases PEGylation, which is the most widely-used GNR stabiliser, might not be optimal.…”

Coating gold nanorods with self-assembling peptide amphiphiles promotes stability and facilitates in vivo two-photon imaging

A block elimination algorithm for multiple scattering of multilayered concentric nanoparticle aggregates

Gold-coated silver nanorods on side-polished singlemode optical fibers for remote sensing at optical telecommunication wavelengths