Short and long range surface plasmon polariton waveguides for xylene sensing

Brigo, Laura; Gazzola, Enrico; Cittadini, Michela; Zilio, Pierfrancesco; Zacco, Gabriele; Romanato, Filippo; Martucci, Alessandro; Guglielmi, Massimo; Brusatin, Giovanna

doi:10.1088/0957-4484/24/15/155502

Cited by 34 publications

(24 citation statements)

References 36 publications

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“…Recently, we further developed optical sensors based on extended plasmons by using a patternable sol-gel hybrid film to fabricate a dielectric-metal-dielectric (DMD) sinusoidal grating capable of coupling light and generating surface plasmon polaritons [ 28 ]. We used aryl-bridged polysilsesquioxane films similar to those described earlier thanks to their ability to undergo patterning and to their distinctive ability to detect aromatic hydrocarbons.…”

Section: Sol-gel Nanomaterials For Optical Sensors Based On Extendmentioning

confidence: 99%

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Sol-Gel Thin Films for Plasmonic Gas Sensors

Gaspera

Martucci

2015

Sensors

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Plasmonic gas sensors are optical sensors that use localized surface plasmons or extended surface plasmons as transducing platform. Surface plasmons are very sensitive to dielectric variations of the environment or to electron exchange, and these effects have been exploited for the realization of sensitive gas sensors. In this paper, we review our research work of the last few years on the synthesis and the gas sensing properties of sol-gel based nanomaterials for plasmonic sensors.

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Section: Sol-gel Nanomaterials For Optical Sensors Based On Extendmentioning

confidence: 99%

“…The glass prism can also be replaced by a diffraction grating: for a proper combination of the period of the grating, the angle and wavelength of the incident wave, a surface plasmon is generated [ 28 ].…”

Section: Introductionmentioning

confidence: 99%

Sol-Gel Thin Films for Plasmonic Gas Sensors

Gaspera

Martucci

2015

Sensors

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“…A postdeposition bake was applied to promote solvent evaporation and reach a stable cross-linking degree. [22] TiO 2 -based anatase TiO 2 nanoparticles (NPs) were synthesized starting from a solution containing water, HCl and methanol with molar ratios H 2 O/TiOPr=12.25 and HCl/ TiOPr=1.72. Following a previously described receipt, 10.5 mmol of Ti(OPri) 4 (Titanium Isopropoxide) were added drop wise into the solution, that was stirred for 60 min at room temperature afterwards, then heated in an oil bath at 70°C and kept at this temperature for 4 h under reflux.…”

Section: Functional Resist Ph-psqmentioning

confidence: 99%

“…Therefore, reflectance spectra could only be acquired at an incidence angle of 70°, varying the incident light frequency. [22] In order to test the sensor response to a specific analyte, the following procedure was adopted. First, a suitable reference reflectance spectrum was recorded in dry N 2 environment.…”

Section: Sensing Measurementsmentioning

confidence: 99%

Grating-coupled surface plasmon resonance gas sensing based on titania anatase nanoporous films

et al. 2015

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Nanoporous TiO 2 anatase film has been investigated as sensitive layer in Surface Plasmon Resonance sensors for the detection of hydrogen and Volatile Organic Compounds, specifically methanol and isopropanol. The sensors consist of a TiO 2 nanoporous matrix deposited above a metallic plasmonic grating, which can support propagating Surface Plasmon Polaritons. The spectral position of the plasmonic resonance dip in the reflectance spectra was monitored and correlated to the interaction with the target gases. Reversible blue-shifts of the resonance frequency, up to more than 2 THz, were recorded in response to the exposure to 10000 ppm of H 2 in N 2 at 300°C. This shift cannot be explained by the mere refractive index variation due to the target gas filling the pores, that is negligible. Reversible red-shifts were instead recorded in response to the exposure to 3000 ppm of methanol or isopropanol at room temperature, of magnitudes up to 14 THz and 9 THz, respectively. In contrast, if the only sensing mechanism was the mere pores filling, the shifts should have been larger during the isopropanol detection. We therefore suggest that other mechanisms intervene in the analyte/matrix interaction, capable to produce an injection of electrons into the sensitive matrix, which in turn induces a decrease of the refractive index.

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“…It is thus essential to find strategies to enhance the sensitivity of these sensors. It was demonstrated that a sensitivity enhancement can be achieved by working in "conical mounting", a configuration where the scattering plane is rotated of an azimuthal angle with respect to the grating wavevector [25][26][27][28]. It was also observed that the symmetry breaking, due to the azimuthal rotation, involves a fundamental role of the incident light polarization on SPP excitation [25,29].…”

Section: Introductionmentioning

confidence: 99%

Grating-coupled Surface Plasmon Resonance (GC-SPR) Optimization for Phase-interrogation Biosensing in a Microfluidic Circuit

Rossi¹,

Gazzola²,

Capaldo³

et al. 2018

Preprint

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Surface Plasmon Resonance (SPR) based sensors have the advantage of being label-free, enzyme-free and real-time. However, their spreading in multidisciplinary research is still limited and almost confined to prism-coupled devices. Plasmonic gratings, combined with a simple and cost-effective instrumentation, have been poorly developed compared to prism-coupled system mainly due to their lower sensitivity. Here we describe the optimization and signal enhancement of a sensing platform based on phase-interrogation method, which entails the exploitation of a nanostructured sensor. This technique is particularly suitable for integration of the plasmonic sensor in a lab-on-a-chip platform and can be used in a microfluidic circuit to ease the sensing procedures and limit the injected volume. The careful optimization of most suitable experimental parameters by numerical simulations leads to a 30 to 50% enhancement of SPR response, opening new possibilities for applications in the biomedical research field while maintaining the ease and versatility of the configuration.

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Short and long range surface plasmon polariton waveguides for xylene sensing

Cited by 34 publications

References 36 publications

Sol-Gel Thin Films for Plasmonic Gas Sensors

Sol-Gel Thin Films for Plasmonic Gas Sensors

Grating-coupled surface plasmon resonance gas sensing based on titania anatase nanoporous films

Grating-coupled Surface Plasmon Resonance (GC-SPR) Optimization for Phase-interrogation Biosensing in a Microfluidic Circuit

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