Selective and reversible ammonia gas detection with nanoporous film functionalized silicon photonic micro-ring resonator

Yebo, Nebiyu Adello; Sree, Sreeprasanth Pulinthanathu; Levrau, Elisabeth; Detavernier, Christophe; Hens, Zeger; Martens, Johan A.; Baets, Roel

doi:10.1364/oe.20.011855

Cited by 72 publications

(57 citation statements)

References 30 publications

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“…Selectivity is based on the zeolite pore size. In another experiment, ammonia was detected by microrings using a silica film sensing layer deposited using atomic layer deposition [107]. In these experiments, Brønsted acid sites in the film favor the binding of ammonia, which is a base.…”

Section: Recent Developments In Biological and Chemical Sensingmentioning

confidence: 99%

Label-Free Biological and Chemical Sensing Using Whispering Gallery Mode Optical Resonators: Past, Present, and Future

2017

Sensors

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Sensitive and rapid label-free biological and chemical sensors are needed for a wide variety of applications including early disease diagnosis and prognosis, the monitoring of food and water quality, as well as the detection of bacteria and viruses for public health concerns and chemical threat sensing. Whispering gallery mode optical resonator based sensing is a rapidly developing field due to the high sensitivity and speed of these devices as well as their label-free nature. Here, we describe the history of whispering gallery mode optical resonator sensors, the principles behind detection, the latest developments in the fields of biological and chemical sensing, current challenges toward widespread adoption of these devices, and an outlook for the future. In addition, we evaluate the performance capabilities of these sensors across three key parameters: sensitivity, selectivity, and speed.

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Section: Recent Developments In Biological and Chemical Sensingmentioning

confidence: 99%

Label-Free Biological and Chemical Sensing Using Whispering Gallery Mode Optical Resonators: Past, Present, and Future

2017

Sensors

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“…, light amplification by stimulated emission of radiation) source could be not suitable when measuring large wavelength shifts since an OSA has a much larger dynamic range. The following analytical expression for the wavelength shift can be found from Equation (6) [9]:

Δ λ = \frac{λ_{0}}{n_{g}} S_{w} δ

where λ 0 is a reference wavelength (usually coincident with one of the transmittance peak wavelengths) and S w can be both homogeneous or surface sensitivity. In case of homogeneous sensing, δ = Δn c represents the refractive index variation of the cladding medium due to the presence of the detecting substance, while in case of surface sensing δ = ρ represents the ad-layer thickness.…”

Section: Vernier Effect Theoretical Modelmentioning

confidence: 99%

“…Among optical sensors, evanescent field devices can provide extremely high sensitivity for the detection of harmful gas or biochemical analytes, allowing both real time and label-free detection. A lot of possible integrated optical sensor devices can be found in literature, such as planar waveguide structures [7], Mach-Zehnder interferometers (MZIs) [8] and silicon microring resonators [9], to name but a few.…”

Section: Introductionmentioning

confidence: 99%

Recent Advances in Gas and Chemical Detection by Vernier Effect-Based Photonic Sensors

Notte

Troia

Muciaccia

et al. 2014

Sensors

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Recently, the Vernier effect has been proved to be very efficient for significantly improving the sensitivity and the limit of detection (LOD) of chemical, biochemical and gas photonic sensors. In this paper a review of compact and efficient photonic sensors based on the Vernier effect is presented. The most relevant results of several theoretical and experimental works are reported, and the theoretical model of the typical Vernier effect-based sensor is discussed as well. In particular, sensitivity up to 460 μm/RIU has been experimentally reported, while ultra-high sensitivity of 2,500 μm/RIU and ultra-low LOD of 8.79 × 10−8 RIU have been theoretically demonstrated, employing a Mach-Zehnder Interferometer (MZI) as sensing device instead of an add drop ring resonator.

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“…The increasing interest in photonic sensors is mainly justified by their ultra-high performances and simple fabrication through standard technological processes, typical in Microelectronics. In fact, limits of detection (LOD) as low as a few parts per billion (ppb) have been demonstrated for gas sensing [3,4] and minimum detectable amount of proteins as low as few femtograms (fg) have been also experimentally detected [5,6].…”

Section: Introductionmentioning

confidence: 99%

Investigation of a novel silicon-on-insulator Rib-Slot photonic sensor based on the vernier effect and operating at 3.8 µm

Troia

Passaro

2014

J. Eur. Opt. Soc.-Rapid Publ.

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In this paper, we present the theoretical investigation of photonic sensors based on Vernier effect with two cascade-coupled ring resonators in silicon on insulator technology. The photonic chip utilizes rib and slot waveguides designed to operate at 3.8 µm mid infrared wavelength, where a number of harmful gases, chemical and biochemical analytes are spectroscopically accessible. A rigorous algorithmic procedure has been implemented for the design of such devices and novel technological solutions have been proposed according to very recent experimental results. The rib-slot sensor architecture can exhibit wavelength sensitivities as high as 20.6 µm/RIU and limits of detection for homogeneous sensing as low as 3.675 × 10 −4 RIU.

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Selective and reversible ammonia gas detection with nanoporous film functionalized silicon photonic micro-ring resonator

Cited by 72 publications

References 30 publications

Label-Free Biological and Chemical Sensing Using Whispering Gallery Mode Optical Resonators: Past, Present, and Future

Label-Free Biological and Chemical Sensing Using Whispering Gallery Mode Optical Resonators: Past, Present, and Future

Recent Advances in Gas and Chemical Detection by Vernier Effect-Based Photonic Sensors

Investigation of a novel silicon-on-insulator Rib-Slot photonic sensor based on the vernier effect and operating at 3.8 µm

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