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Optical and Quantum Electronics
Erschienen in: Optical and Quantum Electronics 2/2022

01.02.2022

Zinc sulfide, silicon dioxide, and black phosphorus based ultra-sensitive surface plasmon biosensor

verfasst von: Bhishma Karki, Youssef Trabelsi, Arun Uniyal, Amrindra Pal

Erschienen in: Optical and Quantum Electronics | Ausgabe 2/2022

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Abstract

The optical biosensor is the emerging research area in the field of bio-photonics. The black phosphorus zinc sulfide-based hybrid configuration is suitable for implementing and analyzing ultrasensitive biosensors. Ag/Zinc sulfide/silicon dioxide/black phosphorus-based biosensor has been implemented in the proposed work using the modified Kretschmann configuration. The sensitivity improvement of the designed SPR sensor is analyzed in the different arrangements of the layers. The thickness of the layers of all the materials has been optimized. The thickness of the Ag metal layer is optimized and taken as 45 nm. The sensitivity and quality factor measured here is as high as \(664.6^\circ {\text{/RIU}}\) and 200 at 1.37 refractive index with the P-polarized light source of \(633\;{\text{nm}}\) wavelength. The proposed biosensor confirms tremendous sensitivity, detection accuracy, and quality factor growth compared with the traditional SPR sensors. Zinc sulfide has multiple applications in the sensing fields, like sensors based on UV rays, lasers, and gas.
Vorheriger Artikel Production of good quality holograms by the THz pulsed vortex beams
Nächster Artikel Design of a novel optical sensor for the detection of waterborne bacteria based on a photonic crystal with an ultra-high sensitivity

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Literatur
Bijalwan, A.: Surface plasmon resonance-based sensors using nano-ribbons of graphene and WSe2. Plasmonics 15, 1015–1023 (2020)CrossRef
Chen, S.J., Lin, C.Y.: Sensitivity comparison of graphene based surface plasmon resonance biosensor with Au, Ag and Cu in the visible region. Mater. Res. Express 6, 056503 (2019)ADSCrossRef
Cho, S.Y., et al.: Superior chemical sensing performance of black phosphorus: comparison with MoS2 and graphene. Adv. Mater. 28(32), 7020–7028 (2016)CrossRef
Dai, Y., Xu, H., Wang, H., Lu, Y., Wang, P.: Experimental demonstration of high sensitivity for silver rectangular grating-coupled surface plasmon resonance (SPR) sensing. Opt. Commun. 416(February), 2017–2019 (2018)
Dai, X., Liang, Y., Zhao, Y., Gan, S., Jia, Y., Xiang, Y.: Sensitivity enhancement of a surface plasmon resonance with tin selenide (SnSe) allotropes. Sensors (switzerland) 19(1), 1–8 (2019)CrossRef
Gupta, B.D., Sharma, A.K.: Sensitivity evaluation of a multi-layered surface plasmon resonance-based fiber optic sensor: a theoretical study. Sens. Actuators 107, 40–46 (2004)CrossRef
Heydarian, H., Yazdanfar, P., Shahmansouri, A., Rashidian, B.: Tunable wide-band graphene plasmonic nano-color-sorter: application in scanning near-field optical microscopy. J. Opt. Soc. Am. B 36(2), 435–442 (2019)ADSCrossRef
Jena, S.C., et al.: Surface plasmon resonance immunosensor for label-free detection of BIRC5 biomarker in spontaneously occurring canine mammary tumours. Sci. Rep. 9(January), 1–12 (2019)ADS
Kim, B., Pratap, M.S., Lee, Y., Park, C.: Enhanced surface and optical properties of colloidal silver nano-particles on GaN-based light-emitting diodes by a localized surface plasmon resonance effect using a low-cost metal-assisted chemical etching method. Opt. Commun. 450(January), 276–281 (2019)ADSCrossRef
Kushwaha, A.S., Kumar, A., Kumar, R., Srivastava, S.K.: A study of surface plasmon resonance (SPR) based biosensor with improved sensitivity. Photonics Nanostruct. Fundam. Appl. 31(June), 99–106 (2018)ADSCrossRef
Liao, J., Han, L., Xu, C.: Comparison of the sensitivity by SPR in a metal-ITO-BlueP/TMDC structure. Appl. Opt. 60(17), 5161–5168 (2021)ADSCrossRef
Lili, L., Wang, M., Jiao, L., et al.: Sensitivity enhancement of a graphene–barium titanate-based surface plasmon resonance biosensor with an Ag–Au bimetallic structure in the visible region. J. Opt. Soc. Am. Bical Soc. Am. B 36, 1108–1116 (2019)ADSCrossRef
Lin, Z., et al.: Tuning and sensitivity enhancement of surface plasmon resonance biosensor with graphene covered Au–MoS2-Au films. IEEE Photonics J. 8(6), 1–8 (2016)CrossRef
Maharana, P.K., Jha, R.: Chalcogenide prism and graphene multilayer based surface plasmon resonance affinity biosensor for high performance. Sens. Actuators B Chem. 169, 161–166 (2012)CrossRef
Maharana, P.K., Jha, R., Palei, S.: Sensitivity enhancement by air mediated graphene multilayer based surface plasmon resonance biosensor for near infrared. Sens. Actuators B Chem. 190, 494–501 (2014)CrossRef
Mao, N., et al.: Optical anisotropy of black phosphorus in the visible regime. Am. Chem. Soc. 138, 300–305 (2016)CrossRef
Mei, G.S., Menon, P.S.: ZnO for performance enhancement of surface plasmon resonance biosensor: a review ZnO for performance enhancement of surface plasmon resonance biosensor: a review. Mater. Res. Express 7, 012003 (2020)ADSCrossRef
Mishra, A.K., Mishra, S.K.: Gas sensing in Kretschmann configuration utilizing bi-metallic layer of Rhodium–Silver in visible region. Sens. Actuators B Chem. 237, 969–973 (2016)CrossRef
Mueller, T., Xia, F., Avouris, P.: Graphene photodetectors for high-speed optical communications. Nat. Photonics 4(March), 297–301 (2010)CrossRef
Pal, A., Jha, A.: A theoretical analysis on sensitivity improvement of an SPR refractive index sensor with graphene and barium titanate nanosheets. Optik (stuttg.) 231(January), 166378 (2021)ADSCrossRef
Pal, A., et al.: Prism based surface plasmon resonance biosensor for biomedical applications. In: ICOL-2019, Springer Proceedings in Physics 258, pp. 1–4. Springer, Singapore (2020)
Qin, Z., Yue, C., Lang, Y., Liu, Q.: Enhancement of spin components’ shifts of reflected beam via long range surface plasmon resonance. Opt. Commun. 426(April), 16–22 (2018)ADSCrossRef
Rahman, M.M., Rana, M.M., Rahman, M.S., Anower, M.S., Mollah, M.A., Paul, A.K.: Sensitivity enhancement of SPR biosensors employing heterostructure of PtSe2 and 2D materials. Opt. Mater. (amst.) 107, 110123 (2020)CrossRef
Roether, J., Chu, K., Willenbacher, N., Shen, A.Q., Bhalla, N.: Biosensors and bioelectronics real-time monitoring of DNA immobilization and detection of DNA polymerase activity by a micro fluidic nanoplasmonic platform. Biosens. Bioelectron. 142(July), 111528 (2019)CrossRef
Singh, Y., Raghuwanshi, S.K.: Electromagnetic wave sensors sensitivity enhancement of the surface plasmon resonance gas sensor with black phosphorus. IEEE Sens. Lett. 3(12), 1–4 (2019)CrossRef
Singh, Y., Paswan, M.K., Raghuwanshi, S.K.: Sensitivity enhancement of SPR sensor with the black phosphorus and graphene with bi-layer of gold for chemical sensing. Plasmonics 16, 1781–1790 (2021)CrossRef
Ud, R., Biswas, D., Oh, W.C.: Synthesis of BiVO4–GO–PVDF nanocomposite: an excellent, newly designed material for high photocatalytic activity towards organic dye degradation by tuning band gap energies. Solid State Sci. 80, 22–30 (2018)ADSCrossRef
Vasimalla, Y., Shekhar Pradhan, H., Jashvantbhai Pandya, R.: SPR performance enhancement for DNA hybridization employing black phosphorus, silver, and silicon. Appl. Opt. 59(24), 7299–7307 (2020)ADSCrossRef
Verma, A., Prakash, A., Tripathi, R.: Sensitivity enhancement of surface plasmon resonance biosensor using graphene and air gap. Opt. Commun. 357, 106–112 (2015)ADSCrossRef
Wang, X., Xie, Z., Huang, H., Liu, Z., Chen, D., Shen, G.: Gas sensors, thermistor and photodetector based on ZnS nanowires. J. Mater. Chem. 22(14), 6845–6850 (2012)CrossRef
Wu, L., et al.: Sensitivity enhancement by using few-layer black phosphorus-graphene/TMDCs heterostructure in surface plasmon resonance biochemical sensor. Sens. Actuators B Chem. 249, 542–548 (2017)CrossRef
Yang, Z., Xia, L., Li, S., Qi, R., Chen, X., Li, W.: Sensors and actuators A: physical highly sensitive refractive index detection based on compact HSC-SPR structure in a microfluidic chip. Sens. Actuators A Phys. 297, 111558 (2019)CrossRef
Yue, C., Lang, Y., Zhou, X., Liu, Q.: Sensitivity enhancement of an SPR biosensor with a graphene and blue phosphorene/transition metal dichalcogenides hybrid nanostructure. Appl. Opt. 58(34), 9411–9420 (2019)ADSCrossRef
Zeng, S., et al.: Graphene–MoS2 Hybrid Nanostructures Enhanced Surface Plasmon Resonance Biosensors Shuwen. Elsevier, Amsterdam (2015)
Zhao, J., Ud, R., Biswas, D., Oh, W.: A novel BiVO4–GO–TiO2–PANI composite for upgraded photocatalytic performance under visible light and its non-toxicity. Environ. Sci. Pollut. Res. 26, 11888–11904 (2019a)CrossRef
Metadaten
Titel
Zinc sulfide, silicon dioxide, and black phosphorus based ultra-sensitive surface plasmon biosensor
verfasst von
Bhishma Karki
Youssef Trabelsi
Arun Uniyal
Amrindra Pal
Publikationsdatum
01.02.2022
Verlag
Springer US
Erschienen in
Optical and Quantum Electronics / Ausgabe 2/2022
Print ISSN: 0306-8919
Elektronische ISSN: 1572-817X
DOI
https://doi.org/10.1007/s11082-021-03480-z

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