2017
DOI: 10.1002/admt.201700024
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Plasmonic Enhancement in the Fluorescence of Organic and Biological Molecules by Photovoltaic Tweezing Assembly

Abstract: Figure 8. SEM image of the Ag nanoparticles (average particle size of 25 nm) used for PV trapping. www.advancedsciencenews.com

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Cited by 16 publications
(17 citation statements)
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“…The technique has been also applied to fabricate grating devices on lithium niobate waveguides [39]. Another relevant result that considerably enhances the applicability of particle patterns fabricated by PVT is the possibility of transferring the patterns to other substrates (glass, organic films) as it has been recently reported [36,38,39]. The result of such transferring method is illustrated in Figure 6c,d that shows the initial pattern on the lithium niobate substrate (Figure 6c) and the transferred pattern to a glass substrate (Figure 6d).…”
Section: Manipulation Of Micro-or Nanoparticles and Applicationsmentioning
confidence: 97%
See 3 more Smart Citations
“…The technique has been also applied to fabricate grating devices on lithium niobate waveguides [39]. Another relevant result that considerably enhances the applicability of particle patterns fabricated by PVT is the possibility of transferring the patterns to other substrates (glass, organic films) as it has been recently reported [36,38,39]. The result of such transferring method is illustrated in Figure 6c,d that shows the initial pattern on the lithium niobate substrate (Figure 6c) and the transferred pattern to a glass substrate (Figure 6d).…”
Section: Manipulation Of Micro-or Nanoparticles and Applicationsmentioning
confidence: 97%
“…The combined action of patterning and alignment is demonstrated. This new capability enhances the versatility of PVT that are becoming a unique tool to prepare functional microstructures useful in a variety of fields such as photonics (nonlinear optics, plasmonics [36]), nanochemistry [31] or microfluidics [40].…”
Section: Manipulation Of Micro-or Nanoparticles and Applicationsmentioning
confidence: 99%
See 2 more Smart Citations
“…This property makes PVOT very well suited to produce micro‐ and nanoparticle stable patterns. In fact, the fabrication of patterns with a very large number of metallic or dielectric particles distributed over a relatively large area, more than 1000 × 1000 µm has been already reported and a variety of applications in different fields, such as photonics, nanotechnology, biotechnology, and optofluidics, have been recently proposed and tested. PVOT manipulation involves not only the electrical response of the particles but also the singular optoelectronic behavior of the ferroelectric substrate .…”
Section: Introductionmentioning
confidence: 99%