Issue 10, 2023

Photonic crystal nanostructure as a photodetector for NaCl solution monitoring: theoretical approach

Abstract

In this research, we have a theoretical simple and highly sensitive sodium chloride (NaCl) sensor based on the excitation of Tamm plasmon resonance through a one-dimensional photonic crystal structure. The configuration of the proposed design was, [prism/gold (Au)/water cavity/silicon (Si)/calcium fluoride (CaF2)10/glass substrate]. The estimations are mainly investigated based on both the optical properties of the constituent materials and the transfer matrix method as well. The suggested sensor is designed for monitoring the salinity of water by detecting the concentration of NaCl solution through near-infrared (IR) wavelengths. The reflectance numerical analysis showed the Tamm plasmon resonance. As the water cavity is filled with NaCl of concentrations ranging from 0 g l−1 to 60 g l−1, Tamm resonance is shifted towards longer wavelengths. Furthermore, the suggested sensor provides a relatively high performance compared to its photonic crystal counterparts and photonic crystal fiber designs. Meanwhile, the sensitivity and detection limit of the suggested sensor could reach the values of 24 700 nm per RIU (0.576 nm (g l)−1) and 0.217 g l−1, respectively. Therefore, the suggested design could be of interest as a promising platform for sensing and monitoring NaCl concentrations and water salinity as well.

Graphical abstract: Photonic crystal nanostructure as a photodetector for NaCl solution monitoring: theoretical approach

Supplementary files

Article information

Article type
Paper
Submitted
15 Jan 2023
Accepted
20 Feb 2023
First published
27 Feb 2023
This article is Open Access
Creative Commons BY-NC license

RSC Adv., 2023,13, 6737-6746

Photonic crystal nanostructure as a photodetector for NaCl solution monitoring: theoretical approach

A. H. M. Almawgani, H. A. Elsayed, A. Mehaney, T. A. Taha, Z. A. Alrowaili, G. A. Ali, W. Sabra, S. Asaduzzaman and A. M. Ahmed, RSC Adv., 2023, 13, 6737 DOI: 10.1039/D3RA00308F

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