2010
DOI: 10.1002/anie.201002172
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Fluorescence Studies into the Effect of Plasmonic Interactions on Protein Function

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Cited by 63 publications
(75 citation statements)
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“…As the fluorophore spends less time in the excited state, the photostability will increase and thus a higher number of photons can be detected before irreversible photobleaching occurs. 27,28 To date only a few studies on emission enhancement of lightharvesting complexes have been reported using chemically synthesized metal nanostructures such as silver island films, 29,30 gold, [31][32][33] and silver nanoparticles. 34 In most studies the individual contributions of excitation and QY changes to the total fluorescence enhancement have not been disentangled.…”
Section: Introductionmentioning
confidence: 99%
“…As the fluorophore spends less time in the excited state, the photostability will increase and thus a higher number of photons can be detected before irreversible photobleaching occurs. 27,28 To date only a few studies on emission enhancement of lightharvesting complexes have been reported using chemically synthesized metal nanostructures such as silver island films, 29,30 gold, [31][32][33] and silver nanoparticles. 34 In most studies the individual contributions of excitation and QY changes to the total fluorescence enhancement have not been disentangled.…”
Section: Introductionmentioning
confidence: 99%
“…While molecular adsorbates on the surfaces of nanoparticles can modify the surface plasmon resonances [4], the plasmonic interaction can also aect protein function [5]. As a consequence, a deep understanding of the fundamental interaction mechanisms between metal nanostructures and proteins is necessary for the design of hybrids with tailored…”
Section: Introductionmentioning
confidence: 99%
“…While the interactions between plasmons and simple nanostructures such as organic dyes or semiconductor nanocrystals is relatively well described and understood, application of metallic nanoparticles to multipigment structures has started just recently (Carmeli, 2010;Govorov, 2008;Kim, 2011;Nieder, 2010). Light-harvesting complexes, or more generally, photosynthetic complexes, are quite appealing in this regard as they not only provide an interesting biomolecular system for studying plasmon effect on both the optical properties of pigments and the energy transfer between them, but also they could offer attractive potential application route in photovoltaics (Atwater & Polman, 2010;Mackowski, 2010).…”
Section: Introductionmentioning
confidence: 99%