Twisted weakly coupled relative humidity sensor coated with a graphene oxide/polyvinyl alcohol composite

Sun, Yuqing; Guo, Jiachen; Xiao, Yinfeng; Fan, Jiulun; Chen, Jigang; Zhao, Dong; Jia, Bo

doi:10.1364/ao.463248

Cited by 6 publications

(1 citation statement)

References 23 publications

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“…However, these materials exhibit low-refractive-index changes after adsorbing water molecules and require thick films to achieve a sufficient optical signal response. Consequently, most of these sensors have response times longer than 10 s. Moreover, graphene oxide (GO), as a derivative of 2D material graphene, is drawing extensive research in high-performance fiber RH sensors owing to the small size effect, high surface-area-to-volume ratio, and abundant hydrophilic groups [20][21][22] . The best performances of a GO enabled fiber humidity sensor were 45 ms and 115 ms in response and recovery progress, respectively [11] .…”

Section: Introductionmentioning

confidence: 99%

Towards a fast and stable tachypnea monitor: a C60-Lys enabled optical fiber sensor for humidity tracking in breath progress

Wang,

Gao,

Wang

et al. 2024

中国光学快报

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The pandemic of respiratory diseases enlightened people that monitoring respiration has promising prospects in averting many fatalities by tracking the development of diseases. However, the response speed of current optical fiber sensors is still insufficient to meet the requirements of high-frequency respiratory detection during respiratory failure. Here, a scheme for a fast and stable tachypnea monitor is proposed utilizing a water-soluble C 60 -Lys ion compound as functional material for the tracking of humidity change in the progression of breath. The polarization of C 60 -Lys can be tuned by the ambient relative humidity change, and an apparent refractive index alteration can be detected due to the small size effect. In our experiments, C 60 -Lys is conformally and uniformly deposited on the surface of a tilted fiber Bragg grating (TFBG) to fabricate an ultra-fast-response, high-sensitivity, and long-term stable optical fiber humidity sensor. A relative humidity (RH) detecting sensitivity of 0.080 dB/% RH and the equilibrium response time and recovery time of 1.85 s and 1.58 s are observed, respectively. Also, a linear relation is detected between the resonance intensity of the TFBG and the environment RH. In a practical breath monitoring experiment, the instantaneous response time and recovery time are measured as 40 ms and 41 ms, respectively, during a 1.5 Hz fast breath process. Furthermore, an excellent time stability and high repeatability are exhibited in experiments conducted over a range of 7 days.

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Section: Introductionmentioning

confidence: 99%

Towards a fast and stable tachypnea monitor: a C60-Lys enabled optical fiber sensor for humidity tracking in breath progress

Wang,

Gao,

Wang

et al. 2024

中国光学快报

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Application of fused tapering optical fiber coupler in mode selective couplers and sensors: A review

Lian,

Jin,

et al. 2025

Measurement

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Fast detection of humidity sensor with a weakly coupled fiber coated with carbomer

Shi,

Li,

Zhang

et al. 2024

Phys. Scr.

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Humidity, as one of the basic environmental physical quantities, is essential in medical monitoring, food production and pharmaceutical industries.Fast and highly sensitive humidity sensing technology has become an urgent need in areas such as medical monitoring. We proposed and realized a novel coupled fiber-optic humidity sensor based on double tapered fiber twisted weakly coupled structure coated with carbomer film. The sensor adopts 2×2 coupler structure with waist diameter of 10 μm. The Carbomer film is coated in the weakly coupled area to improve the sensitivity of the sensor, and the thickness of this coating is about 79.2 nm. The sensor provides linear sensing over a relative humidity range of 40 - 65% RH, with a dynamic response time of 208 ms and a recovery time of 464 ms. The sensitivity of the sensor is up to -0.28 dB/%RH and the linearity of the sensor is as high as 99.89%. Moreover, the sensor has good stability, reversibility, and low temperature crosstalk. Based on these characteristics, it can be expected that the sensor will bring a great breakthrough in applications where sensitive monitoring of humidity is required.

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Twisted weakly coupled relative humidity sensor coated with a graphene oxide/polyvinyl alcohol composite

Cited by 6 publications

References 23 publications

Towards a fast and stable tachypnea monitor: a C60-Lys enabled optical fiber sensor for humidity tracking in breath progress

Towards a fast and stable tachypnea monitor: a C60-Lys enabled optical fiber sensor for humidity tracking in breath progress

Application of fused tapering optical fiber coupler in mode selective couplers and sensors: A review

Fast detection of humidity sensor with a weakly coupled fiber coated with carbomer

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