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DESIGN OF HIGHLY SENSITIVE SELF-REFERENCE TAMM-PLASMON-POLARITON SENSOR EMPLOYING Ti3C2Tx MXene

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dc.contributor.author Panda, Abinash
dc.contributor.author Puspa Devi Pukhrambam
dc.contributor.author Joni Welman Simatupang
dc.date.accessioned 2023-04-10T03:06:39Z
dc.date.available 2023-04-10T03:06:39Z
dc.date.issued 2022
dc.identifier.uri http://repository.president.ac.id/xmlui/handle/123456789/11060
dc.description IEEE SENSORS JOURNAL, VOL. 22, NO. 13, JULY 1, 2022. p. 12719-12727. en_US
dc.description.abstract This paper presents design and analysis of a self-reference refractive index sensor for precise detection of different concentrations of H5N1 virus in poultry. The sensor is basedon the study of Tammplasmonpolariton (TPP)modes excited between Ti3C2Tx MXene and cavity layer integrated 1D photonic crystal (PhC).We demonstrate the self-reference characteristics of the sensor, which significantly decreases the error contributions by the environmental factors like the light intensity fluctuations and local temperature variations. The transfer matrix method (TMM) is employed to investigate the reflectance and absorbance of the sensor. The cornerstone of this work lies on the assay of the shift in the wavelength and intensity of the TPP mode vis-à-vis different concentrations of the H5N1 virus. Numerous structural parameters like selection ofmaterials, thickness of theMXene layer, thickness of the cavity layer, and period of the PhC are judiciously optimized to envisage maximum sensing performance. The colormap plot of field distribution infers a strong electric field localization in the cavity layer, which indicates high absorption of TPP modes. Compared to the traditional TPP sensor designedwith Ag thin film, the electric field intensity (EFI) and sensitivity of the proposed MXene-based TPP sensor have been boosted by 40% and 15.93% respectively. It is appraised that the proposed sensor delivers a maximum sensitivity of 60.9375 nm/HAU, quality factor of 5485.71, and detection limit of 2.6×10−6 RIU. The proposed sensor can find suitable applications in the field of biomedical diagnostics, healthcare, food safety, and environmental monitoring. en_US
dc.language.iso en_US en_US
dc.publisher IEEE en_US
dc.subject Tamm plasmon polariton en_US
dc.subject Ti3C2Tx MXene material en_US
dc.subject sensors en_US
dc.subject TMM en_US
dc.subject sensitivity en_US
dc.title DESIGN OF HIGHLY SENSITIVE SELF-REFERENCE TAMM-PLASMON-POLARITON SENSOR EMPLOYING Ti3C2Tx MXene en_US
dc.type Other en_US


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