A high-performance biosensor design for waterborne bacteria detection based on one-dimensional photonic crystal

Zaman, Numayer A; Akash, Nur A; Nayan, Md Faysal

doi:10.1088/1402-4896/ace5f5

Cited by 4 publications

(1 citation statement)

References 41 publications

(53 reference statements)

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“…Moreover, a biosensor for detecting the urine glucose concentration was designed by A. El Mouncharih et al with the structure of (Si/Nb 2 O 5 /SiO 2 ) 6 /Defect Layer/(Si/Nb 2 O 5 /SiO 2 ) 6 and a sensitivity of 965 nm RIU −1 [17]. Using Si and SiO 2 to construct a 1D PC containing a defect layer in the middle, Numayer A. Zaman et al designed a biosensor to detect waterborne bacteria with a sensitivity of 2486.57 nm RIU −1 [18]. Narendra Kumar et al proposed a gas sensor configured as (Si/gas) 4 Si/gas/Si/(gas/Si) 4 with a rarely high sensitivity of 1.515 × 10 5 nm RIU −1 [19].…”

Section: Introductionmentioning

confidence: 99%

Urine glucose concentration detection biosensor using one-dimensional photonic crystals with periodical and Fibonacci sequences based on Tamm plasmon resonance

Huang,

Zhang,

Chen

et al. 2024

Phys. Scr.

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This paper presents the design of biosensors utilizing one-dimensional photonic crystals with periodical and Fibonacci sequences for measuring glucose concentration in urine, aimed at facilitating continuous blood glucose monitoring for diabetic patients. Exploiting Tamm plasmon resonance within a photonic band gap in the medium wave infrared band, the biosensor comprises a configuration with a one-dimensional photonic crystal and an Ag layer deposited on an infrared prism, with a urine sample layer in between. Utilizing the transfer matrix method, the reflection spectra for electromagnetic waves are calculated. The wavelength position of the Tamm plasmon resonant dip is influenced by variations in glucose concentration within the urine sample. This is attributed to the distinct refractive indices exhibited by urine samples with different glucose concentrations. Optimizing biosensor performance under various incident angles involves adjusting the Ag layer and urine sample thicknesses while maintaining excellent linear characteristics. The optimal performance of the biosensor with Fibonacci sequence one-dimensional photonic crystal is significantly superior, with a sensitivity of 113,000 nm RIU−1, a figure of merit of 2.05 × 105 RIU−1, and a detection limit of 4.84 × 10−7 RIU. The combination of high performance and a straightforward structure makes the proposed biosensors for detecting urine glucose concentrations promising in biomedical diagnostics.

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Section: Introductionmentioning

confidence: 99%

Urine glucose concentration detection biosensor using one-dimensional photonic crystals with periodical and Fibonacci sequences based on Tamm plasmon resonance

Huang,

Zhang,

Chen

et al. 2024

Phys. Scr.

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Design of a 1D PhC biosensor with enhanced sensitivity based on useful features provided for the detection of waterborne bacteria

Mohamed,

Sabra,

Mobarak

et al. 2024

Opt Quant Electron

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In this article, we propose a one-dimensional photonic crystal (1D-PhC) biosensor design to detect water-borne bacteria such as Shigella, Vibrio cholera, Salmonella, and E. coli. The theoretical reflectance spectrum of a 1D-PhC and the sensitivity of types of bacteria such as Shigella flexneri, Salmonella, E. coli, and Vibrios cholera are investigated by using the transfer matrix method and MATLAB software. The impact of incident angle and central wavelength on the performance and sensitivity of biosensors are studied. The suggested sensor's sensing process is dependent on variations in the refractive indices of different species of bacteria. The variation in the central wavelength, angle of incidence, the sensitivity of the proposed structure, and other parameters such as full width at half maximum, quality factor, damping ratio, and detection limit can be enhanced. The obtained average sensitivity of our design has a value of 4073 nm/RIU at optimum conditions of defect layer thickness and incident angle. Also, the proposed biosensor design exhibits a high quality factor value of 10996.2165 and a low detection limit value of $$0.44607 \times \,10^{ - 5}$$ 0.44607 × 10 - 5 RIU.

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High sensitivity photonic crystal biosensor design for real time detection of viruses in infected blood sample

Gürel,

Ceylan

2024

J Opt

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A high-performance biosensor design for waterborne bacteria detection based on one-dimensional photonic crystal

Cited by 4 publications

References 41 publications

Urine glucose concentration detection biosensor using one-dimensional photonic crystals with periodical and Fibonacci sequences based on Tamm plasmon resonance

Urine glucose concentration detection biosensor using one-dimensional photonic crystals with periodical and Fibonacci sequences based on Tamm plasmon resonance

Design of a 1D PhC biosensor with enhanced sensitivity based on useful features provided for the detection of waterborne bacteria

High sensitivity photonic crystal biosensor design for real time detection of viruses in infected blood sample

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