Optical Sensitive Detection of Cervical Cancer Based on Surface Plasmon Resonance Nanostructure-Reference-Cited by-同舟云学术

Optical Sensitive Detection of Cervical Cancer Based on Surface Plasmon Resonance Nanostructure

Published:2024-07-22 Issue:16 Volume:221 Page:
ISSN:1862-6300
Container-title:physica status solidi (a)
language:en
Short-container-title:Physica Status Solidi (a)

Author:

Daher Malek G.¹^ORCID,Trabelsi Youssef²,Rashed Ahmed Nabih Zaki³⁴,Yahia Ibrahim S.⁵,Prajapati Yogenra Kumar⁶,Almawgani Abdulkarem H. M.⁷,Alzahrani Ahmad⁷

Affiliation:

1. Physics Department Islamic University of Gaza Gaza 108 Palestine

2. College of Arts and Sciences in Muhail Asir Physics Department King Khalid University Abha 61421 Saudi Arabia

3. Electronics and Electrical Communications Engineering Department Faculty of Electronic Engineering Menoufia University Menouf 32951 Egypt

4. Department of VLSI Microelectronics Institute of Electronics and Communication Engineering, Saveetha School of Engineering SIMATS Chennai Tamilnadu 602105 India

5. Center of Medical and Bio‐Allied Health Sciences Research (CMBHSR) Ajman University Ajman 346 United Arab Emirates

6. Department of Electronics and Communication Engineering Motilal Nehru National Institute of Technology (MNNIT) Allahabad Prayagraj 211004 India

7. Electrical Engineering Department College of Engineering Najran University Najran 66439 Saudi Arabia

Abstract

Cervical cancer is a disease that affects a lot of people all over the world. The success of treatment is significantly increased by early detection. The new surface plasmon resonance sensor (SPRS) described in this article is constructed from layers of silver, BaTiO3, and graphene, as well as a coupling prism. The transfer matrix (TM) approach is used to evaluate the SPRS structure. To obtain the highest sensitivity of the suggested SPRS, the thicknesses of the Ag and BaTiO3 and the number of Gr sheets are evaluated. Investigations are done on all factors of performance of the proposed device. Exemplary efficiency is achieved using 4 nm (BaTiO3) and 60 nm (Ag) materials. Three layers are chosen as the optimal amount of graphene after investigation. When the optimal thicknesses are employed, the suggested SPRS's greatest sensitivity of 300° RIU−1 has been attained. The suggested SPRS displays better sensitivity when compared to SPRS structures that have already been published in the literature. This SPRS is promising to be used in different biosensing applications due to its high performance.

Funder

Saudi Arabian Cultural Mission

Publisher

Wiley

Link

https://onlinelibrary.wiley.com/doi/pdf/10.1002/pssa.202300567

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