Integration of a Microfluidics System With a U-Shaped Optical Fiber
This study introduces a successfully manufactured U-shaped optical fiber sensor integrated with a microfluidics system to detect varying glucose concentrations.
This study introduces a successfully manufactured U-shaped optical fiber sensor integrated with a microfluidics system to detect varying glucose concentrations.
To address these impending issues, it is imperative that there should be a cost-effective rapid analytical scheme. Given these facts, this paper explores the feasibility of using U-shaped fiber
Rapid and incredibly sensitive analyte detection is crucial in a variety of settings, including medical diagnostics. However, conventional surface plasmon resonance (SPR) sensors cannot effectively
Multi-channel fiber SPR sensor can realize the detection of multiple analytes and specific binding detection. In this paper, by controlling the curvature radius of U-shaped structure to adjust
The theoretical modeling of a surface plasmon resonance based U shaped fiber optic sensor has been presented. The effect of bending radius of the fiber on the sensitivity of the sensor is studied.
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Photonic crystal fibre-optic sensors with large-aperture cladding and U-shaped detection channels are simple in structure, highly sensitive and have
This study describes the fabrication of an electrospun, U-shaped optical fiber sensor for temperature measurements. The sensor is based on
In this paper, sensitivity enhancement in U-shaped evanescent wave fiber optic sensor has been reported. The overall effect of surface roughness,
This review compares materials for fiber optics fabrication, focused on polymers for fibers in sensing applications. Polymer based materials are being
Abstract With the urgent demand of low concentration molecular detection, an innovative solution is presented to improve the sensitivity of surface plasmon resonance (SPR) sensors through
This paper proposes a high-sensitivity U-shaped optical fiber sensor based on indium tin oxide (ITO) for surface plasmon resonance (SPR) sensing.
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Numerous methods have been reported to further enhance the sensitivity of U-shaped fiber optic sensors towards external refractive index variation. This paper introduces a variant U-shaped
With greater penetration depth and evanescent power, these sensors exhibit profound sensitivity and have supported a wide range of applications.
Intrinsic U-shaped fiber optic sensors (FOSs) are well established in the field. With greater penetration depth and evanescent power, these sensors
In this paper, a U-shaped SPR sensor coated with GeS nanosheets on the basis of a conventional gold film is proposed, as depicted in Fig. 1.
Detailed guidance is provided on the fabrication of U-shaped fiber optic sensors. Furthermore, the chapter investigates the potential and versatility of U-type fiber optic SPR sensors
Principles of sensing mechanisms for U-shape polymer fiber sensors are discussed. Possible applications of U-shape fiber sensors in fields such as biology, chemistry and industry are
To achieve highly sensitive measurements of strain, a U-shaped optical fiber sensor (OFS) based on seven-core photonic crystal fiber (SCPCF) was designed. The proposed Mach-Zehnder-based
In the present paper, a novel fiber optic RI device, which combines low cost, high resolution, simplicity of design and miniaturized in structure has been described. The sensor consists
This review outlines the theoretical model and design considerations along with the fabrication process of U-shaped FOSs.
The experimental results indicate that the sensitivity and resolution of the silver-nanoparticle-enhanced U-shaped fiber-optic ATR sensor are approximately three times those of a
Here, a tungsten diselenide (WSe 2) modified U-shaped fiber optic SPR sensor is proposed. It is found that the sensing performances of the proposed U-shaped probe can be
A wide range of geometrical deformations of fiber optic sensors (FOSs) have been explored to improve their performance. In particular, fiber optics bent into a U-shape present various
This paper aims to provide researchers with guidelines on the factors to consider when choosing a material for bent fiber optic sensors, depending on
This paper proposes a high-sensitivity U-shaped optical fiber sensor based on indium tin oxide (ITO) for surface plasmon resonance (SPR) sensing. Finite element simulations reveal that
In this study, by combining a U-shaped-wound fiber bending loss crack sensor and an optical splitter on the fiber link, we reduce the effect of temperature on the light source and the fiber
Plasmonic fiber optic sensors have garnered immense interest in the past two decades owing to their inherent structural, functional, and operational benefits. In particular, U-bent fiber optic
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