Plasmon-controlled fluorescence: a new detection technology

Lakowicz, Joseph R.; Chowdhury, Mustafa H.; Ray, Krishanu; Zhang, Jian; Fu, Yi; Badugu, Ramachandram; Sabanayagam, Chandran R.; Nowaczyk, Kazimierz; Szmacinski, Henryk; Aslan, Kadir; Geddes, Chris D.

doi:10.1117/12.673106

Cited by 31 publications

(29 citation statements)

References 82 publications

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“…While absorptance, A(c), increases to a maximum of unity at high concentrations, efficiency, E(c), falls to low levels at high concentration due to the phenomenon of self quenching. 45 For monochromatic illumination, absorptance is given by Beer's Law…”

Section: Appendix Fluorescence Self Quenching Of Fluoresceinmentioning

confidence: 99%

“…Molar extinction coefficient was assumed to be 76,000 cm À1 M À1 and molecular weight of sodium fluorescein 476. 46 Efficiency of fluorescence was assumed to be reduced by the phenomenon of Resonance Energy Transfer (RET) 45 using the formula: where the ''critical concentration,'' c 0 , was taken to be 0.2%. Evidence for this assumption is given below.…”

Section: Appendix Fluorescence Self Quenching Of Fluoresceinmentioning

confidence: 99%

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The Use of Fluorescent Quenching in Studying the Contribution of Evaporation to Tear Thinning

Nichols

King‐Smith

Hinel

et al. 2012

Invest. Ophthalmol. Vis. Sci.

116

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PURPOSE. The purpose of our study was to test the prediction that if the tear film thins due to evaporation, rather than tangential flow, a high concentration of fluorescein in the tear film would show a greater reduction in fluorescent intensity compared to a low concentration of fluorescein due to selfquenching at high concentrations.METHODS. Tear film thickness, thinning rate, and fluorescent intensity were measured continuously and simultaneously with a modified spectral interferometer in 30 healthy subjects with two different concentrations (2% followed by 10%) of 1 lL of liquid fluorescein on the eye. Measurements of fluorescein selfquenching (fluorescent efficiency as a function of fluorescein concentration) are described in an Appendix and are reported in arbitrary units. RESULTS.Under low and high fluorescein concentration conditions, there were no differences in tear film thickness (P ¼ 0.09) or thinning rates (P ¼ 0.76). While the mean initial fluorescent intensity was similar between groups (637.47 6 381.47 vs. 672.09 6 649.72, P ¼ 0.55), the mean rate of fluorescent decay was 4-fold faster in the high (16.57 6 29.34) than in the low (4.11 6 6.78) concentration group (P < 0.01).CONCLUSIONS. The large difference in the rate of fluorescent decay between groups can be explained by the effects of evaporation and self quenching of fluorescein; the latter is expected to be greater for high than for low fluorescein concentration. Fluorescence decay due to tangential flow would be expected to be similar at high and low fluorescein concentrations. This supports previous evidence that evaporation has the primary role in normal tear thinning between blinks. (Invest Ophthalmol Vis Sci. 2012;53:5426-5432)

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Section: Appendix Fluorescence Self Quenching Of Fluoresceinmentioning

confidence: 99%

Section: Appendix Fluorescence Self Quenching Of Fluoresceinmentioning

confidence: 99%

The Use of Fluorescent Quenching in Studying the Contribution of Evaporation to Tear Thinning

Nichols

King‐Smith

Hinel

et al. 2012

Invest. Ophthalmol. Vis. Sci.

116

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“…The SPR absorption of AuNPs is followed by the rapid conversion of the absorbed light into heat [79]. The ability of AuNPs to covert strongly absorbed light efficiently into localized heat can be explored for the selective photothermal approach.…”

Section: Noble Metal Nanoparticlesmentioning

confidence: 99%

Dispersions based on noble metal nanoparticles-DNA conjugates

Capek

2011

Advances in Colloid and Interface Science

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“…The relationship between the plasmon-induced electromagnetic near-field of a metal nanostructure and properties of the adjacent dye has been previously studied in [26]. The fluorophore emission was demonstrated to change dramatically when it is placed on the different distances within PN, depending on the electric field.…”

Section: Theory and Modelingmentioning

confidence: 99%

Plasmon-enhanced fluorometry based on gold nanostructure arrays. Method and device

Chegel¹

2015

Semicond. Phys. Quantum Electron. Optoelectron.

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Abstract. In this work, we describe a method of surface-enhanced fluorometry, based on the phenomenon of localized surface plasmon resonance in unordered gold nanostructure arrays. The theoretical approach for the model system "gold nanoparticle-dielectric spacer" in the electrostatic approximation by solution of Laplace's equation is considered. The developed technology for manufacturing the plasmonic substrates as well as design of the novel laser-based compact fluorometer are presented. The arrays of gold nanostructures on solid substrates (nanochips) coated with different thicknesses of SiO 2 were developed and fabricated by thermal annealing of gold island films with subsequent dielectric spacer deposition. As an example for verification of the proposed method, the fluorescence properties of the system "gold nanostructures array -SiO 2 dielectric coating -Rhodamine 6G" were studied. It has been shown that enhancement of dye emission up to 22 times for dielectric coating with the thickness of about 20 nm is possible. Presented method is of importance for the development of the novel nanoscale sensors, biomolecular assays and nanoplasmonic devices.

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Plasmon-controlled fluorescence: a new detection technology

Cited by 31 publications

References 82 publications

The Use of Fluorescent Quenching in Studying the Contribution of Evaporation to Tear Thinning

The Use of Fluorescent Quenching in Studying the Contribution of Evaporation to Tear Thinning

Dispersions based on noble metal nanoparticles-DNA conjugates

Plasmon-enhanced fluorometry based on gold nanostructure arrays. Method and device

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