Non-invasive Raman signal enhancement in a scattering medium

Nanostructures with spikes (NSPs) have been a subject of several surface-enhanced Raman scattering (SERS) applications owing to their significant Raman signal enhancement brought about by the combined effects of interspike coupling and the accumulated induction on the tips of spikes. Thus, NSPs offer great potential as a SERS-active substrate for relevant applications that require a high density of enhanced “hot spots”. In this study, Ag NSPs were synthesized in varying degrees of agglomeration and were thereafter deposited onto a transparent adhesive tape as a flexible substrate for SERS applications, specifically, in the detection of trace amounts of pesticides. These flexible substrates were referred to as Ag NSPs/tape and optimized with an enhancement factor (EF) of ca. 1.7 × 107. A strong resulting signal enhancement could be attributed to an optimal degree of agglomeration and, consequently, the distances among/between spikes. Long spikes on the synthesized core of Ag NSPs tend to be loosely spaced, which are suitable in detecting relatively large molecules that could access the spaces among the spikes where “hot spots” are generally formed. Since one side of the transparent tape is adhesive, the paste-and-peel off method was successful in obtaining phosmet and carbaryl residues from apple peels as reflected in the acquired SERS spectra. In situ trace detection of the pesticides at low concentrations down to 10−7 M could be demonstrated. In situ trace detection of mixed pesticides was possible as the characteristic peaks of both pesticides were observed in equimolar mixtures of the analytes at 10−2 to 10−4 M. This study is, thus, premised upon applying for in situ trace detection on e.g., fruit skin.

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Raman signal enhancement by multiple beam excitation and its application for the detection of chemicals

Applied Physics Letters ◽

10.1063/1.4929951 ◽

2015 ◽

Vol 107 (9) ◽

pp. 091114 ◽

Cited By ~ 1

Author(s):

Sakshi Gupta ◽

Azeem Ahmad ◽

Vijayeta Gambhir ◽

Martha N. Reddy ◽

Dalip S. Mehta

Keyword(s):

Signal Enhancement ◽

Raman Signal ◽

Multiple Beam ◽

Beam Excitation

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Role of multipolar plasmon resonances during surface-enhanced Raman spectroscopy on Au micro-patches

RSC Advances ◽

10.1039/c6ra22450d ◽

2016 ◽

Vol 6 (116) ◽

pp. 115284-115289 ◽

Cited By ~ 1

Author(s):

Annette Dowd ◽

Mathias Geisler ◽

Shaoli Zhu ◽

Michelle L. Wood ◽

Michael B. Cortie

Keyword(s):

Raman Spectroscopy ◽

Surface Enhanced Raman Spectroscopy ◽

Signal Enhancement ◽

Raman Signal ◽

Surface Enhanced ◽

Plasmon Resonances ◽

Surface Enhanced Raman

Large more reproducibly fabricated microstructures can also provide significant Raman signal enhancementviausually neglected multipolar plasmon resonances.

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P5249Comprehensive invasive and non-invasive assessment of coronary artery lesions with and without hemodynamic significance

European Heart Journal ◽

10.1093/eurheartj/ehz746.0220 ◽

2019 ◽

Vol 40 (Supplement_1) ◽

Author(s):

L C Engel ◽

U Landmesser ◽

Y Abdelwahed ◽

K Gigengack ◽

C Manes ◽

...

Keyword(s):

Vulnerable Plaque ◽

Invasive Coronary Angiography ◽

Endothelial Permeability ◽

Signal Enhancement ◽

Intraplaque Hemorrhage ◽

Molecular Characteristics ◽

Non Invasive ◽

Native T1 ◽

Flow Reserve ◽

Coronary Lesions

Abstract Background There is limited knowledge about specific morphological parameters beyond the degree of stenosis to further characterize hemodynamically relevant coronary lesions. Objective The goal of this study was to identify certain morphological or molecular characteristics that distinguish hemodynamically significant from non-significant coronary lesions using various invasive and non-invasive measures. Methods This clinical study included patients with symptoms suggestive of CAD who underwent native T1-weighted CMR and gadofosveset-enhanced CMR as well as invasive coronary angiography between 2015 and 2016. OCT of the culprit vessel to determine the plaque type was performed in a subset of patients. Functional relevance of all lesions was examined using quantitative flow reserve (QFR-Angio). Hemodynamically significant lesions were defined as lesions with a QFR <0.8. Signal intensity (contrast-to-noise ratios; CNRs) on native T1-weighted CMR and gadofosveset-enhanced CMR was defined as a measure for intraplaque hemorrhage and endothelial permeability respectively. Results Overall 13 patients (n=28 coronary segments) were included, whose invasive coronary angiograms projections were eligible for QFR analysis. Segments containing lesions with a QFR <0.8 (n=9) were associated with significantly higher signal enhancement on Gadofosveset-enhanced CMR as compared to segments containing a hemodynamically non-relevant lesions (lesion-QFR>0.8; n=19) (7.0±4.9 vs. 3.0±2.6; p=0.02). No differences in signal enhancement were seen on native T1-weighted CMR (2.1±4.3 vs. 3.3±4.1; p=0.24). 66,7% (4 out of 6) of all vulnerable plaque and 33.3% (2 out of 6) of all non-vulnerable plaque (fibroatheroma) as assessed by OCT were hemodynamically significant lesions. Conclusion The findings of this small feasibility study suggest that hemodynamically significant lesions are more advanced and associated with a higher grade of endothelial permeability while the presence of intraplaque hemorrhage may not be associated with hemodynamically relevant coronary lesions.

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Raman Signal Enhancement Tunable by Gold-Covered Porous Silicon Films with Different Morphology

Sensors ◽

10.3390/s20195634 ◽

2020 ◽

Vol 20 (19) ◽

pp. 5634 ◽

Cited By ~ 1

Author(s):

Svetlana N. Agafilushkina ◽

Olga Žukovskaja ◽

Sergey A. Dyakov ◽

Karina Weber ◽

Vladimir Sivakov ◽

...

Keyword(s):

Porous Silicon ◽

Raman Scattering ◽

Pore Size ◽

Signal Enhancement ◽

Raman Signal ◽

Sers Spectrum ◽

Internal Diameter ◽

Au Nps ◽

Surface Enhanced Raman ◽

Size And Morphology

The ease of fabrication, large surface area, tunable pore size and morphology as well surface modification capabilities of a porous silicon (PSi) layer make it widely used for sensoric applications. The pore size of a PSi layer can be an important parameter when used as a matrix for creating surface-enhanced Raman scattering (SERS) surfaces. Here, we evaluated the SERS activity of PSi with pores ranging in size from meso to macro, the surface of which was coated with gold nanoparticles (Au NPs). We found that different pore diameters in the PSi layers provide different morphology of the gold coating, from an almost monolayer to 50 nm distance between nanoparticles. Methylene blue (MB) and 4-mercaptopyridine (4-MPy) were used to describe the SERS activity of obtained Au/PSi surfaces. The best Raman signal enhancement was shown when the internal diameter of torus-shaped Au NPs is around 35 nm. To understand the role of plasmonic resonances in the observed SERS spectrum, we performed electromagnetic simulations of Raman scattering intensity as a function of the internal diameter. The results of these simulations are consistent with the obtained experimental data.

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