Effect of thickness disorder on the performance of photonic crystal surface wave sensors

Anopchenko, Aleksei; Occhicone, Agostino; Rizzo, Riccardo; Sinibaldi, Alberto; Figliozzi, Giovanni; Danz, Norbert; Munzert, Peter; Michelotti, Francesco

doi:10.1364/oe.24.007728

Cited by 30 publications

(28 citation statements)

References 30 publications

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“…While the latter is a unique and valuable feature of label-free methods, resolution is usually lower compared to the fluorescence-based methods (Mathias et al, 2007). For such a reason, fluorescence schemes exploiting evanescent waves, featuring strong field localization and intensity enhancement at the surface of interest, have been employed (Anopchenko et al, 2016;Cooper, 2002;Descrovi et al, 2013;Fan et al, 2008;Ligler and Taitt, 2008;Zhao et al, 2010). Among evanescent wave sensors, those based on Bloch surface waves (BSW) sustained by dielectric one dimensional photonic crystals (1DPC) (Yeh et al, 1977) have been demonstrated as an effective alternative to SPR for label-free optical biosensing (Konopsky et al, 2013;Rivolo et al, 2012;Rizzo et al, 2014;Shinn and Robertson, 2005;Sinibaldi et al, 2015aSinibaldi et al, , 2015b.…”

Section: Introductionmentioning

confidence: 99%

Bloch surface wave label-free and fluorescence platform for the detection of VEGF biomarker in biological matrices

Rizzo

Alvaro

Danz

et al. 2018

Sensors and Actuators B: Chemical

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We report on the detection of an angiogenic molecule Vascular Endothelial Growth Factor (VEGF) in different biological matrices by means of a new integrated biosensing platform exploiting the properties of Bloch surface waves. The new platform takes advantage of a tandem configuration, in which both label-free and enhanced fluorescence detection are implemented. Specifically designed one dimensional photonic crystals were deposited directly on disposable and low cost plastic biochips. A direct sandwich immunoassay was used to detect VEGF in buffer, cell culture supernatant and human plasma at low concentration (ng/mL). The platform enabled the detection of VEGF in all three matrices with high resolution, fast turnaround time (30 min) and in close agreement with the results of enzyme linked immunosorbent assays

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Section: Introductionmentioning

confidence: 99%

Bloch surface wave label-free and fluorescence platform for the detection of VEGF biomarker in biological matrices

Rizzo

Alvaro

Danz

et al. 2018

Sensors and Actuators B: Chemical

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“…2c, most likely due to a difference of the two top layers' thicknesses from the values given above for the design structure. The fabrication tolerances are in fact not small enough to guarantee that such thicknesses are effectively 20 nm [27]. As expected, the BSW dip shifts when different liquids are used, owing to their different refractive index.…”

Section: Optical Setupmentioning

confidence: 86%

Effects of Reabsorption due to Surface Concentration in Highly Resonant Photonic Crystal Fluorescence Biosensors

et al. 2018

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Photonic crystal enhanced fluorescence biosensors have been proposed as a novel immunodiagnostic tool, due to the increased fluorescence excitation rates and angular redistribution of the emission. Among these, purely dielectric one-dimensional photonic crystals (1DPC) sustaining Bloch surface waves (BSW) at their truncation edge, have recently attracted much interest. We report for the first time on the time resolved experimental study of the effect of quenching of the BSW coupled fluorescence in the near infrared range around 800 nm. Temporally and angularly resolved measurements of the BSW coupled fluorescence emission permit to put into evidence a strong quenching of the fluorescence emission when using highly resonant 1DPC. The results suggest that, when designing 1DPC sustaining BSW for quantitative diagnostic assays, it is necessary to choose a compromise quality factor, to exploit the features arising from the electromagnetic field enhancement and at the same time avoid quenching.

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“…Numerical simulations of the waveguide structure were carried out using the MODE Solutions software from Lumerical Solutions, Inc. The effective index of the ENZ mode supported by three layer structures was calculated using of a MATLAB code developed by G. Figliozzi and F. Michelotti at the University of Rome "La Sapienza" (Italy) 44 based on the transfer matrix method 45 . In all simulations, permittivity function of silica is modeled using the Palik data 46 .…”

Section: Methodsmentioning

confidence: 99%

Excitation of epsilon-near-zero resonance in ultra-thin indium tin oxide shell embedded nanostructured optical fiber

Minn

Anopchenko

Yang

et al. 2018

Sci Rep

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We report a novel optical waveguide design of a hollow step index fiber modified with a thin layer of indium tin oxide (ITO). We show an excitation of highly confined waveguide mode in the proposed fiber near the wavelength where permittivity of ITO approaches zero. Due to the high field confinement within thin ITO shell inside the fiber, the epsilon-near-zero (ENZ) mode can be characterized by a peak in modal loss of the hybrid waveguide. Our results show that such in-fiber excitation of ENZ mode is due to the coupling of the guided core mode to the thin-film ENZ mode. We also show that the phase matching wavelength, where the coupling takes place, varies depending on the refractive index of the constituents inside the central bore of the fiber. These ENZ nanostructured optical fibers have many potential applications, for example, in ENZ nonlinear and magneto-optics, as in-fiber wavelength-dependent filters, and as subwavelength fluid channel for optical and bio-photonic sensing.

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Effect of thickness disorder on the performance of photonic crystal surface wave sensors

Cited by 30 publications

References 30 publications

Bloch surface wave label-free and fluorescence platform for the detection of VEGF biomarker in biological matrices

Bloch surface wave label-free and fluorescence platform for the detection of VEGF biomarker in biological matrices

Effects of Reabsorption due to Surface Concentration in Highly Resonant Photonic Crystal Fluorescence Biosensors

Excitation of epsilon-near-zero resonance in ultra-thin indium tin oxide shell embedded nanostructured optical fiber

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