Light-microgel interaction in resonant nanostructures

Giaquinto, M; Ricciardi, Armando; Aliberti, Anna; Micco, A.; Bobeico, E.; Ruvo, Menotti; Cusano, A.

doi:10.1038/s41598-018-27197-4

Cited by 22 publications

(36 citation statements)

References 49 publications

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“…The morphological analysis has been carried out only outside of the fiber core area, because the presence of the nanostructure makes difficult to evaluate the CF. However, as already demonstrated in our previous studies [8,11,12] the pattern does not alter the distribution of the MGs, which are still conformally deposited onto the gold nanostructure. The AFM image shown in Figure 2b confirms the creation of a uniform and compact MGs film (with an average height lower than 40 nm, compatible with the formation of a single layer [11]), characterized by a CF higher than 90%.…”

Section: Optical Monitoring Of the Fabrication Processsupporting

confidence: 65%

“…In particular, by setting low operating pH (3), low temperature (10 • C) and high concentration (5%) of particle dispersions, we achieved high coverage factor (CF) films. We have demonstrated that CFs larger than 90% warranted the maximum degree of light-MGs interactions onto the fiber tip, and thus the maximum responsivity to MGs swelling/collapsing induced by the specific external stimulus of interest [11,12].…”

Section: Introductionmentioning

confidence: 90%

“…In this framework, we have recently proposed a LOF optrode integrated with microgels (MGs), i.e., 'smart' or responsive polymers, that change their size following environment changes [8][9][10][11][12]. Specifically, MGs are colloidal microsized hydrogel particles, which are synthesized to be selectively sensitive to physical (temperature) or chemical (i.e., pH variations, molecular binding events) parameters of interest when immersed in a liquid environment [13,14].…”

Section: Introductionmentioning

confidence: 99%

“…Before the MGs deposition, the reflection spectrum of the LOF probe in air (dashed black curve) presents a dip centered at 1363 nm with a FWHM of 85 nm. The reflection dip is due to the excitation of a LSPR[8][9][10][11][12]. Characterization of the MGs film deposited following the previous procedure onto the goad coated optical fiber tip.…”

mentioning

confidence: 99%

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A Time-Efficient Dip Coating Technique for the Deposition of Microgels onto the Optical Fiber Tip

Scherino

Giaquinto

Micco

et al. 2018

Fibers

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The combination of responsive microgels and Lab-on-Fiber devices represents a valuable technological tool for developing advanced optrodes, especially useful for biomedical applications. Recently, we have reported on a fabrication method, based on the dip coating technique, for creating a microgels monolayer in a controlled fashion onto the fiber tip. In the wake of these results, with a view towards industrial applications, here we carefully analyze, by means of both morphological and optical characterizations, the effect of each fabrication step (fiber dipping, rinsing, and drying) on the microgels film properties. Interestingly, we demonstrate that it is possible to significantly reduce the duration (from 960 min to 31 min) and the complexity of the fabrication procedure, without compromising the quality of the microgels film at all. Repeatability studies are carried out to confirm the validity of the optimized deposition procedure. Moreover, the new procedure is successfully applied to different kinds of substrates (patterned gold and bare optical fiber glass), demonstrating the generality of our findings. Overall, the results presented in this work offer the possibility to improve of a factor ~30 the fabrication throughput of microgels-assisted optical fiber probes, thus enabling their possible exploitation in industrial applications.

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Section: Optical Monitoring Of the Fabrication Processsupporting

confidence: 65%

Section: Introductionmentioning

confidence: 90%

Section: Introductionmentioning

confidence: 99%

mentioning

confidence: 99%

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A Time-Efficient Dip Coating Technique for the Deposition of Microgels onto the Optical Fiber Tip

Scherino

Giaquinto

Micco

et al. 2018

Fibers

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“…Further sensitivity improvements were recently achieved in the case of label-free “lab-on-tip” nanobioprobes, for controlled integration on the nanostructured tip of single-mode optical fibers in multiresponsive and functionalized microgels [ 58 ].…”

Section: Lab-on-fiber Concept: a Technological Roadmapmentioning

confidence: 99%

Lab-On-Fiber Technology: A Roadmap toward Multifunctional Plug and Play Platforms

Pisco

Cusano

2020

Sensors

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This review presents an overview of the “lab-on-fiber technology” vision and the main milestones set in the technological roadmap to achieve the ultimate objective of developing flexible, multifunctional plug and play fiber-optic platforms designed for specific applications. The main achievements, obtained with nanofabrication strategies for unconventional substrates, such as optical fibers, are discussed here. The perspectives and challenges that lie ahead are highlighted with a special focus on full spatial control at the nanoscale and high-throughput production scenarios. The rapid progress in the fabrication stage has opened new avenues toward the development of multifunctional plug and play platforms, discussed here with particular emphasis on new functionalities and unparalleled figures of merit, to demonstrate the potential of this powerful technology in many strategic application scenarios. The paper also analyses the benefits obtained from merging lab-on-fiber (LOF) technology objectives with the emerging field of optomechanics, especially at the microscale and the nanoscale. We illustrate the main advances at the fabrication level, describe the main achievements in terms of functionalities and performance, and highlight future directions and related milestones. All achievements reviewed and discussed clearly suggest that LOF technology is much more than a simple vision and could play a central role not only in scenarios related to diagnostics and monitoring but also in the Information and Communication Technology (ICT) field, where optical fibers have already yielded remarkable results.

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