Photonic wire biosensor microarray chip and instrumentation with application to serotyping ofEscherichia coliisolates

Janz, Siegfried; Xu, Dan‐Xia; Vachon, Martin; Sabourin, N.; Cheben, Pavel; McIntosh, H.; Ding, Heping; Wang, S.; Schmid, Jens H.; Delâge, A.; Lapointe, J.; Densmore, A.; Ma, R.; Sinclair, W. Robert; Logan, Susan M.; MacKenzie, Ross; Liu, Q.Y.; Zhang, D.; Lopinski, Gregory P.; Mozenson, Olga; Gilmour, Matthew W.; Tabor, Helen

doi:10.1364/oe.21.004623

Cited by 53 publications

(23 citation statements)

References 23 publications

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“…Nowadays, waveguide-based optical sensors reach the detection limit of 10 -7 /refractive index unit (RIU) [14], which covers most interesting applications. Current research focuses on creating sensor arrays and cost price reduction by further miniaturization [16]. Recent progress in miniaturization of spectrometers for Raman detection and optical coherence tomography (OCT) [17][18][19] demonstrates the potential of photonics technology for point-ofcare diagnostics.…”

Section: Introductionmentioning

confidence: 99%

TriPleX: a versatile dielectric photonic platform

Wörhoff

Heideman

Leinse

et al. 2015

Advanced Optical Technologies

221

175

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Photonic applications based on planar waveguide technology impose stringent requirements on properties such as optical propagation losses, light coupling to optical fibers, integration density, as well as on reliability and reproducibility. The latter is correlated to a high level of control of the refractive index and waveguide geometry. In this paper, we review a versatile dielectric waveguide platform, called TriPleX, which is based on alternating silicon nitride and silicon dioxide films. Fabrication with CMOS-compatible equipment based on low-pressure chemical vapor deposition enables the realization of stable material compositions being a prerequisite to the control of waveguide properties and modal shape. The transparency window of both materials allows for the realization of low-loss waveguides over a wide wavelength range (400 nm-2.35 μm). Propagation losses as low as 5 × 10 -4 dB/cm are reported. Three basic geometries (box shell, double stripe, and filled box) can be distinguished. A specific tapering technology is developed for on-chip, low-loss ( < 0.1 dB) spotsize convertors, allowing for combining efficient fiber to chip coupling with high-contrast waveguides required for increased functional complexity as well as for hybrid integration with other photonic platforms such as InP and SOI. The functionality of the TriPleX platform is captured by verified basic building blocks. The corresponding library and associated design kit is available for multi-project wafer (MPW) runs. Several applications of this platform technology in communications, biomedicine, sensing, as well as a few special fields of photonics are treated in more detail.

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Section: Introductionmentioning

confidence: 99%

TriPleX: a versatile dielectric photonic platform

Wörhoff

Heideman

Leinse

et al. 2015

Advanced Optical Technologies

221

175

View full text Add to dashboard Cite

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“…Several interferometric designs utilize waveguides, as discussed above, but other forms are also possible. One especially interesting example is the spiral waveguide resonator [253]. This device has been multiplexed up to a 128-sensor array.…”

Section: Optical Methodsmentioning

confidence: 99%

Whispering Gallery Mode Devices for Sensing and Biosensing

François¹,

Zhi

Meldrum

2015

Photonic Materials for Sensing, Biosensing and Display Devices

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Optical sensors based on resonant whispering gallery mode (WGM) optical cavities are discussed in the context of recent research developments. WGM-based sensors are among the most sensitive optical sensing devices currently known, especially when combined with surface plasmon effects. The basic theory of WGM "reactive" sensing is first discussed, along with the basic parameters that are used to characterize such devices (i.e., sensitivity, signal-to-noise ratio, and detection limit). Surface chemistry methods are of critical importance for targeted sensing applications and the fundamentals of this aspect are examined. The performance of fluorescent WGM-based devices is compared to state-of-the-art "evanescently-coupled" structures. Finally, the performance of WGM-based optical sensors is compared and contrasted to a range of alternative optical microsensor technologies currently under development.A. François

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“…Furthermore, the microring component is easily stackable in a 2D array such that high throughput can be obtained. Recently, multiplexing of 128 sensors was realized in this manner [5]. Common to integrated optical surface techniques, both refractive and reflective, is that they interrogate the analytes on the surface with the evanescent tail of an optical mode.…”

Section: Introductionmentioning

confidence: 99%

Improving the detection limit of conformational analysis by utilizing a dual polarization Vernier cascade

2016

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Abstract:The dual polarization microring technique enables the simultaneous and accurate detection of thickness and refractive index of a bound molecular layer. By using three microring resonators in a double Vernier cascade configuration, the dual polarization technique is improved on three distinct levels: an increase of the sensitivity, a suppression of common noise due to self-referencing and the ability to migrate from a standard tunable laser to a cheap broadband LED and an on-chip arrayed waveguide grating as read-out system, allowing for a system which is orders of magnitude faster and cheaper. A dual polarization Vernier cascade proof-of-concept is fabricated and characterized, a read-out computational framework is constructed and it is shown on a theoretical basis that the limit of detection is improved.

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Photonic wire biosensor microarray chip and instrumentation with application to serotyping ofEscherichia coliisolates

Cited by 53 publications

References 23 publications

TriPleX: a versatile dielectric photonic platform

TriPleX: a versatile dielectric photonic platform

Whispering Gallery Mode Devices for Sensing and Biosensing

Improving the detection limit of conformational analysis by utilizing a dual polarization Vernier cascade

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