Quenching of Molecular Fluorescence on the Surface of Monolayer-Protected Gold Nanoparticles Investigated Using Place Exchange Equilibria

Nerambourg, Nicolas; Werts, Martinus H. V.; Charlot, Marina; Blanchard‐Desce, Mireille

doi:10.1021/la070005a

Cited by 59 publications

(63 citation statements)

References 51 publications

(99 reference statements)

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“…Besides permeability, bio distribution provides valuable pharmacological information and the administration of mixture of oligoclusters of different sizes gives valuable information about size dependent distribution of particles inside the body [23][24][25] . Lastly, because of their unique structure they fail to manifest localized surface plasmon resonance (LSPR) perhaps making them ideal candidates for fluorescent labeling, which is not readily achievable in gold nanoparticles because interference between the LSPR and fluorophore results in almost complete quenching of fluorescence 26 .…”

Section: Discussionmentioning

confidence: 99%

A Simple Method for the Size Controlled Synthesis of Stable Oligomeric Clusters of Gold Nanoparticles under Ambient Conditions

Lawrence

Testen

Koklic

et al. 2016

JoVE

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Reducing dilute aqueous HAuCl 4 with sodium thiocyanate (NaSCN) under alkaline conditions produces 2 to 3 nm diameter nanoparticles. Stable grape-like oligomeric clusters of these yellow nanoparticles of narrow size distribution are synthesized under ambient conditions via two methods. The delay-time method controls the number of subunits in the oligoclusters by varying the time between the addition of HAuCl 4 to alkaline solution and the subsequent addition of reducing agent, NaSCN. The yellow oligoclusters produced range in size from ~3 to ~25 nm. This size range can be further extended by an add-on method utilizing hydroxylated gold chloride (Na) to auto-catalytically increase the number of subunits in the as-synthesized oligocluster nanoparticles, providing a total range of 3 nm to 70 nm. The crude oligocluster preparations display narrow size distributions and do not require further fractionation for most purposes. The oligoclusters formed can be concentrated >300 fold without aggregation and the crude reaction mixtures remain stable for weeks without further processing. Because these oligomeric clusters can be concentrated before derivatization they allow expensive derivatizing agents to be used economically. In addition, we present two models by which predictions of particle size can be made with great accuracy.

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Section: Discussionmentioning

confidence: 99%

A Simple Method for the Size Controlled Synthesis of Stable Oligomeric Clusters of Gold Nanoparticles under Ambient Conditions

Lawrence

Testen

Koklic

et al. 2016

JoVE

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“…10 nm work as an effective fluorescence quencher. 78,79 The quenching efficiency of AuNPs is much larger than that of conventional organic quenching substances. The quenching is caused by FRET, which occurs when a fluorophore and an AuNP locate closely (<2 nm).…”

Section: Figurementioning

confidence: 99%

Polymer-functionalized Gold Nanoparticles as Versatile Sensing Materials

Uehara

2010

ANAL. SCI.

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In this brief review, gold nanoparticles conjugated with functional polymers are described from the viewpoint of application to sensing materials. The optical properties of gold nanoparticles, the synthesis of polymer-functionalized gold nanoparticles, and their analytical applications are discussed. Polymer-functionalized gold nanoparticles are categorized into two classes: biopolymer-conjugated gold nanoparticles and artificial-polymer conjugated gold nanoparticles. Fluorometric and colorimetric sensing using gold nanoparticles are focused; fluorometric detection enables us to exploit sensitive assays for practical use. Furthermore, chemical amplification using gold nanoparticles is also discussed for the sensitive probing.

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“…These 'plasmonic' nanostructures then act as antennae for electromagnetic waves of optical frequencies, and may enhance the brightness of nearby fluorescent molecules. However, for isolated fluorophore-nanoparticle assemblies in solution, quenching of the fluorescence as a result of dominating non radiative energy transfer from the fluorophore to the nanoparticle is often observed 22,23 .…”

Section: Introductionmentioning

confidence: 99%

Optical microscopy and spectroscopy of analyte-sensitive functionalized gold nanoparticles in microfluidic systems

Werts

Raimbault²,

Loumaigne³

et al. 2013

Colloidal Nanocrystals for Biomedical Applications VIII

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et al.. Optical microscopy and spectroscopy of analyte-sensitive functionalized gold nanoparticles in microfluidic systems. Proc. SPIE 2013, 8595, 85950W, Feb 2013, United States. 8595, pp.85950W, 2013, <10.1117 M.H.V. Werts et al., Proc. SPIE 2013, 8595 ABSTRACTThe use of microfluidic devices for the handling and analysis of suspensions of colloidal gold particles is presented. The plasmonic particles are detected via their resonant light scattering (RLS) in a simple and versatile LED-based dark field illumination geometry. RLS enables both microscopic imaging and microspectroscopy. The measurement of the diffusion coefficient of nanoparticles in this type of devices is demonstrated. Nanoparticles are separated from small (free ligand) molecules in a continuous flow process. Reversible aggregation of functionalized particles is detected in microflow by means of RLS, which opens perspectives for the development of microfluidic bioplasmonic detection schemes.

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Quenching of Molecular Fluorescence on the Surface of Monolayer-Protected Gold Nanoparticles Investigated Using Place Exchange Equilibria

Cited by 59 publications

References 51 publications

A Simple Method for the Size Controlled Synthesis of Stable Oligomeric Clusters of Gold Nanoparticles under Ambient Conditions

A Simple Method for the Size Controlled Synthesis of Stable Oligomeric Clusters of Gold Nanoparticles under Ambient Conditions

Polymer-functionalized Gold Nanoparticles as Versatile Sensing Materials

Optical microscopy and spectroscopy of analyte-sensitive functionalized gold nanoparticles in microfluidic systems

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