Design and Analysis of PtSe2 and Blue Phosphorus/MoS2 Heterostructure-Based SPR Biosensor

Biosensors using surface plasmon resonance (SPR) have emerged as effective tools for accurate and instantaneous sensing applications. Nevertheless, optimizing sensor configurations continues to be of utmost importance to attain dependable sensing capabilities. This work presents an intriguing design...

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Published inACS applied optical materials Vol. 2; no. 6; pp. 1046 - 1059
Main Authors Chowdhury, Abu Shahid, Islam, Md. Alimul, Islam, Md. Sherajul, Dey, Biswajit, Park, Jeongwon
Format Journal Article
LanguageEnglish
Published American Chemical Society 28.06.2024
Subjects
refractive indices
surface plasmon resonance (SPR)
biosensor
sensitivity
finite-difference time-domain (FDTD)
biomolecules
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ISSN2771-9855
2771-9855
DOI10.1021/acsaom.4c00050

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Abstract Biosensors using surface plasmon resonance (SPR) have emerged as effective tools for accurate and instantaneous sensing applications. Nevertheless, optimizing sensor configurations continues to be of utmost importance to attain dependable sensing capabilities. This work presents an intriguing design structure that integrates conventional SPR technology with PtSe2 and blue phosphorus–MoS2 heterostructure, resulting in an improved and adaptable sensing technology. The finite-difference time-domain (FDTD) method was used to model and design the prospective sensor. The proposed design has notable attributes, such as an extraordinarily narrow full width at half-maximum (FWHM) of 8.23°, small detection accuracy of 0.1215, an extraordinary sensitivity of 240.54°/RIU, and an outstanding quality factor of 29.23 RIU–1. Significantly, this sensor has a sensitivity that is 3.2 times higher than that of traditional gold-based SPR sensors. In addition, the sensor provides a broad observable range of refractive indices, ranging from 1.33 to 1.36. The broad spectrum of this detection system allows for the identification of diverse ambient chemicals, such as alcohol, ethanol, and water, as well as biomolecules, including urine, glucose, and DNA hybridization. These results represent a significant stride forward for SPR biosensors, allowing for the creation of high-performance sensing systems with a wide range of potential uses.
AbstractList Biosensors using surface plasmon resonance (SPR) have emerged as effective tools for accurate and instantaneous sensing applications. Nevertheless, optimizing sensor configurations continues to be of utmost importance to attain dependable sensing capabilities. This work presents an intriguing design structure that integrates conventional SPR technology with PtSe2 and blue phosphorus–MoS2 heterostructure, resulting in an improved and adaptable sensing technology. The finite-difference time-domain (FDTD) method was used to model and design the prospective sensor. The proposed design has notable attributes, such as an extraordinarily narrow full width at half-maximum (FWHM) of 8.23°, small detection accuracy of 0.1215, an extraordinary sensitivity of 240.54°/RIU, and an outstanding quality factor of 29.23 RIU–1. Significantly, this sensor has a sensitivity that is 3.2 times higher than that of traditional gold-based SPR sensors. In addition, the sensor provides a broad observable range of refractive indices, ranging from 1.33 to 1.36. The broad spectrum of this detection system allows for the identification of diverse ambient chemicals, such as alcohol, ethanol, and water, as well as biomolecules, including urine, glucose, and DNA hybridization. These results represent a significant stride forward for SPR biosensors, allowing for the creation of high-performance sensing systems with a wide range of potential uses.
Author Islam, Md. Sherajul
Chowdhury, Abu Shahid
Islam, Md. Alimul
Dey, Biswajit
Park, Jeongwon
AuthorAffiliation Department of Electrical & Biomedical Engineering
University of Nevada
School of Electrical Engineering and Computer Science
Khulna University of Engineering & Technology
Department of Biomedical Engineering
Department of Electrical and Electronic Engineering
University of Ottawa
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Keywords refractive indices
surface plasmon resonance (SPR)
biosensor
sensitivity
finite-difference time-domain (FDTD)
biomolecules
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Snippet Biosensors using surface plasmon resonance (SPR) have emerged as effective tools for accurate and instantaneous sensing applications. Nevertheless, optimizing...
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Title Design and Analysis of PtSe2 and Blue Phosphorus/MoS2 Heterostructure-Based SPR Biosensor
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