A Miniaturized Metamaterial Resonator-based Microwave Biosensor with High Quality Factor for Solid Materials Characterization
| Authors | A. Serhane1 , M. Berka1,2 , T. Islam3 , S. Das4 , M. L. Kumar 5, Z. Mahdjoub2 |
| Affiliations |
1Department of Electrotechnic, University Mustapha Stamb Ouli of Mascara, 29000 Mascara, Algeria 2Laboratory E.P.O, 22000 Sidi Bel Abbés, University of S.B.A, Algeria 3Department of Electrical and Computer Engineering, University of Houston, Houston, TX 77204, USA 4Department of Electronics and Communication Engineering, IMPS College of Engineering and Technology, Malda, W.B, India 5Department of Electronics and Communication Engineering, Koneru Lakshmaiah Education Foundation, Green Fields, , A.P. – 522302, India |
| Е-mail | m.barka@univ-mascara.dz |
| Issue | Volume 16, Year 2024, Number 3 |
| Dates | Received 12 April 2024; revised received 16 June 2024; published online 28 June 2024 |
| Citation | A. Serhane, M. Berka, et al., J. Nano- Electron. Phys. 16 No 3, 03005 (2024) |
| DOI | https://doi.org/10.21272/jnep.16(3).03005 |
| PACS Number(s) | 84.40.Ba |
| Keywords | Biosensor (5) , Dielectric constant (8) , Metamaterial (2) , Quality factor, SRR (11) . |
| Annotation |
Because of its qualitative importance in several aspects, especially biomedical ones, the characterization of solid materials has recently attracted the interest of scholars. The detection of such a material based on its dielectric constant with reliable precision represents the main desired objective. In this paper, a miniature sized microwave biosensor is presented for solid materials characterization. The proposed biosensor is formed by two identical and periodic split ring metamaterial resonators (SRRs) fed by a microstrip line adapted to its two extremities. The method proposed for the design of our biosensor is based on the exploitation of the electromagnetic qualities of each SRR representing the unit cell of the overall structure. The size of the SRR is optimized for electrical dimensions of where is the free space wavelength calculated at the lowest operating frequency of 4.72 GHz. the characterization of solid materials is based on the detection of its dielectric constants through direct contact with the proposed biosensor. For our study, we have used different substrates to have the different sensitivities. The simulations carried out on the overall structure (biosensor and dielectric substrate) based on the HFSS numerical simulator showed good sensing performance of our biosensor. A low full width at half maximum (0.004), A high quality factor (103.28) and a high figure of merit (428.61). These features can make our biosensor more reliable for solids materials sensing. |
|
List of References |
Other articles from this number
1) Influence of Microsecond Pulse Helium Plasma Flow on the Surface Morphology and Crystal Structure of the Photovoltaic Converters Based on CdS/CdTe [03001-1-03001-8]2) Investigation of Complementary Metamaterial Resonators-Based Novel Dual-Band Coplanar Slotted Antenna for Wireless Communication [03002-1-03002-5]
3) The Prospects of Obtaining a New Material with a Hetero-Baric Structure Gexsi1 – x-Si Based on Silicon for Photo Energy Applications [03003-1-03003-4]
4) Controlling by Defects of Switching of ZnO Nanowire Array Surfaces from Hydrophobic to Hydrophilic: First-Principles Calculations [03004-1-03004-7]
5) Advanced 2 x 1 MIMO Antenna Design for 5G Wireless Communications with Equivalent Circuit Integration [03006-1-03006-5]
6) Integration of Binary Subcarrier Search with Hilbert Matrix (BSS – HBM) using 39 GHz MIMO Antenna in 5G Application [03007-1-03007-5]
7) Miniaturized T and Inverted T Slotted Ultra Wide Band Antenna with Defected Ground (DG) System for 5G Communication [03008-1-03008-7]
8) Compact SIW Based Band Pass Filter for sub 6 GHz Band Application [03009-1-03009-4]
9) Design and Analysis of Two Element Modified Circular Shaped MIMO Antenna for 5G Application [03010-1-03010-5]
10) Tuning of Graphene Oxide Thin Films Synthesis and Characterization with Electronic Behaviour [03011-1-03011-5]
11) Development of a Dual-Band Microstrip Patch Antenna with Rectangular Slot for Next-Generation 12-35 THz Applications [03012-1-03012-4]
12) Investigation on Six Element Dipole Array Antenna for ISM Band Wireless Communication Applications [03013-1-03013-5]
13) Size-Dependent Physical Properties of Metallic Films: Analysis of Thermal and Mechanical Characteristics in the Nanoscale Regime [03014-1-03014-5]
14) Nano Granular Metallic Thin Films: Unravelling Non-Linear Electrical Conduction and Resistive Switching for Neuromorphic Applications [03015-1-03015-5]
15) Enhancing Nanocomposite Filtration Membranes: Refined SVM Approach for Precise Estimation of Permeate Flux and Foulant Rejection [03016-1-03016-5]
16) Surface Water Quality Methods of Determining [03017-1-03017-5]
17) Visible Light- Driven Cesium-Titanium Iodide (Cs2TiI6) Double Perovskite Photocatalytic dye Degradation [03018-1-03018-6]
18) Smart Factory Navigation: Sensor-Driven Access Point Selection for Automated Guided Vehicles [03019-1-03019-5]
19) Electrochemical and Thermodynamic Investigation of Drug Solfarlem as a Potential Corrosion Inhibitor for Nickel-Phosphorus Coatings [03020-1-03020-5]
20) Exploring Thermal Characteristics of Functionally Graded Nanomaterials for Enhanced Heat Dissipation in Electronic Devices [03021-1-03021-5]
21) Identification of GTO Switch Fault in Voltage Source Inverter in PV Integrated Microgrid [03022-1-03022-5]
22) Experimental Study on Structural, Morphological and Optical Properties of Nanocomposite Materials for Dielectric Applications [03023-1-03023-5]
23) Developing Functional Fabrics with Nano-Metal Coatings for Multiple uses by Investigating their Electromagnetic and Ultraviolet Properties [03024-1-03024-6]
24) The Increasing of Water Transport Resources under the Influence of a Thermal Field by the Usage of Modified Epoxy Nanomaterials [03025-1-03025-7]
25) Design and Analysis of a Concentric Ring Based Split Ring Monopole Antenna with Characteristic Mode Analysis (CMA) for IoT Communication Applications [03026-1-03026-6]
26) Assessment of Optimization Parameters for Video Transmission over Optical Fiber using an H265/HEVC Encoder in Video Streaming Applications [03027-1-03027-7]
27) Study of Optical Properties and Structural Features of Object using the X-ray Phase Contrast Method [03028-1-03028-6]
28) Measurement of Very Small Variation of Effective Resistance of MOSFET Deputed in Active Microgrid Inverter Operation [03029-1-03029-5]
29) Human Inner Ear Implant with an Acoustic Information Transmission Channel [03030-1-03030-8]
30) Relaxation of Electronic Excitation in Triazide Molecules [03031-1-03031-5]
31) Fabrication of CdSe/Si Thin Films Solar Cell by CBD [03032-1-03032-3]
