Highly Sensitive and Wide-Dynamic-Range Multichannel Optical-Fiber pH Sensor Based on PWM Technique

Khan, Md. Rajibur Rahaman; Kang, Sang Mo

doi:10.3390/s16111885

Cited by 12 publications

(4 citation statements)

References 46 publications

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“…An uncommon optical fiber pH sensor with wide analytical range was described by Khan et al 1012 It is based on an optical fiber pulse width modulation (PWM) technique. The sensing signal’s pulse width changes when the unclad sensing element of the fiber comes into contact with buffers of varying pH values.…”

Section: Ph Sensors With Wide Dynamic Rangementioning

confidence: 99%

Optical Sensing and Imaging of pH Values: Spectroscopies, Materials, and Applications

2020

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This is the first comprehensive review on methods and materials for use in optical sensing of pH values and on applications of such sensors. The Review starts with an introduction that contains subsections on the definition of the pH value, a brief look back on optical methods for sensing of pH, on the effects of ionic strength on pH values and p K a values, on the selectivity, sensitivity, precision, dynamic ranges, and temperature dependence of such sensors. Commonly used optical sensing schemes are covered in a next main chapter, with subsections on methods based on absorptiometry, reflectometry, luminescence, refractive index, surface plasmon resonance, photonic crystals, turbidity, mechanical displacement, interferometry, and solvatochromism. This is followed by sections on absorptiometric and luminescent molecular probes for use pH in sensors. Further large sections cover polymeric hosts and supports, and methods for immobilization of indicator dyes. Further and more specific sections summarize the state of the art in materials with dual functionality (indicator and host), nanomaterials, sensors based on upconversion and 2-photon absorption, multiparameter sensors, imaging, and sensors for extreme pH values. A chapter on the many sensing formats has subsections on planar, fiber optic, evanescent wave, refractive index, surface plasmon resonance and holography based sensor designs, and on distributed sensing. Another section summarizes selected applications in areas, such as medicine, biology, oceanography, bioprocess monitoring, corrosion studies, on the use of pH sensors as transducers in biosensors and chemical sensors, and their integration into flow-injection analyzers, microfluidic devices, and lab-on-a-chip systems. An extra section is devoted to current challenges, with subsections on challenges of general nature and those of specific nature. A concluding section gives an outlook on potential future trends and perspectives.

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Section: Ph Sensors With Wide Dynamic Rangementioning

confidence: 99%

Optical Sensing and Imaging of pH Values: Spectroscopies, Materials, and Applications

2020

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“…93 Currently, pH test strips and pH meter methods are the main methods for detecting pH. 94 The redox potential of POMOF materials is highly sensitive to pH and can be used as a potentiometric pH sensor.…”

Section: Biosensorsmentioning

confidence: 99%

Advancing biomedical applications of polyoxometalate-based metal–organic frameworks: from design to therapeutic potential

Wang,

Dai,

et al. 2024

Inorg. Chem. Front.

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“…Sensors rely on absorption or fluorescence intensity for humidity measurements often affected with instabilities caused by reduction in indicator concentration due to photo degradation, variations in light source amplitude or bending of fibers. Various transducing methods constitutes for insitu pH measurements such as pulsed laser beam [137], interferometer [138][139][140][141][142], resonator [143,144] and gratings [85] are summarized in Table 3. Current pH sensors have various limitations such as brittleness, chemical volatility of the chromophore at extreme pH values, indicator discharge and subsequent floating of the signal, a limited lifespan, confined pH range, a long response time, unstable response, vulnerability to thermal and chemical variations and lap over between their spectra at extreme pH measurements.…”

Section: Fiber Optic Ph Sensorsmentioning

confidence: 99%

Review of Fiber Optical Sensors and Its Importance in Sewer Corrosion Factor Analysis

et al. 2021

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Adverse effects of wastewater on the hygiene of human and circumstances is a major issue in society. Appropriate refining systems with high efficiency is required to treat the wastewater. Sewage treatment plant plays a major and important role in conserving incredible nature of the environment. Microbiologically Induced Corrosion (MIC) is an important phenomenon in sewage structures which causes the deterioration of infrastructures. Huge capital has been spent and efforts have been made on wastewater treatment infrastructure to increase operating efficiency and reliability of compliance. The investments in reimbursement and maintenance of sewer structures upsurge with an increase in the rate of MIC. The focus of this review is to describe MIC in sewer structure and the factors influencing the corrosion such as the generation of Sulfuric acid (H2SO4), Relative Humidity (RH), pH of the concrete structure and temperature. Modern developments in the design of Fiber Optical Sensors (FOSs) for observing the parameters including pH, Hydrogen Sulfide (H2S), RH and temperature will be discussed.

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Highly Sensitive and Wide-Dynamic-Range Multichannel Optical-Fiber pH Sensor Based on PWM Technique

Cited by 12 publications

References 46 publications

Optical Sensing and Imaging of pH Values: Spectroscopies, Materials, and Applications

Optical Sensing and Imaging of pH Values: Spectroscopies, Materials, and Applications

Advancing biomedical applications of polyoxometalate-based metal–organic frameworks: from design to therapeutic potential

Review of Fiber Optical Sensors and Its Importance in Sewer Corrosion Factor Analysis

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