Analytical expressions for spreading resistance in lossy media and their application to the calibration of scanning microwave microscopy

This paper presents the analytical derivation of spreading resistance expressions for diverse geometries of a conducting probe submerged in a lossy medium. Resulting equations can be used to calibrate scanning impedance/scanning microwave microscopes operating in liquid. The expressions are systemat...

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Published in	RSC advances Vol. 13; no. 31; pp. 21277 - 21282
Main Authors	Farina, Marco, Joseph, C. H, Azman, S. N. Afifa, Morini, Antonio, Pierantoni, Luca, Mencarelli, Davide, di Donato, Andrea, Pietrangelo, Tiziana, Al Hadi, Richard
Format	Journal Article
Language	English
Published	England Royal Society of Chemistry 12.07.2023 The Royal Society of Chemistry
Subjects	Biological activity Biological properties Calibration Chemistry Distilled water Electromagnetic properties Lossy media Mathematical analysis Microscopes Numerical methods
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Abstract	This paper presents the analytical derivation of spreading resistance expressions for diverse geometries of a conducting probe submerged in a lossy medium. Resulting equations can be used to calibrate scanning impedance/scanning microwave microscopes operating in liquid. The expressions are systematically validated through numerical and experimental methods for the calibration of an inverted Scanning Microwave Microscope (iSMM) when operating in a lossy saline medium, such as Dulbecco's Modified Eagle Medium (DMEM), a widely used medium for supporting the growth of biological cells. The calibration process within DMEM plays an important role in the quantitative local evaluation of electromagnetic properties of biological samples under physiological conditions. Additionally, measurements are performed in distilled water for comparative analysis. We present a method for assessing the spreading resistance of electrodes immersed in a lossy medium, useful for the calibration of scanning microwave microscopy and also in other fields such as fluidic sensors.
AbstractList	This paper presents the analytical derivation of spreading resistance expressions for diverse geometries of a conducting probe submerged in a lossy medium. Resulting equations can be used to calibrate scanning impedance/scanning microwave microscopes operating in liquid. The expressions are systematically validated through numerical and experimental methods for the calibration of an inverted Scanning Microwave Microscope (iSMM) when operating in a lossy saline medium, such as Dulbecco's Modified Eagle Medium (DMEM), a widely used medium for supporting the growth of biological cells. The calibration process within DMEM plays an important role in the quantitative local evaluation of electromagnetic properties of biological samples under physiological conditions. Additionally, measurements are performed in distilled water for comparative analysis. We present a method for assessing the spreading resistance of electrodes immersed in a lossy medium, useful for the calibration of scanning microwave microscopy and also in other fields such as fluidic sensors. This paper presents the analytical derivation of spreading resistance expressions for diverse geometries of a conducting probe submerged in a lossy medium. Resulting equations can be used to calibrate scanning impedance/scanning microwave microscopes operating in liquid. The expressions are systematically validated through numerical and experimental methods for the calibration of an inverted Scanning Microwave Microscope (iSMM) when operating in a lossy saline medium, such as Dulbecco's Modified Eagle Medium (DMEM), a widely used medium for supporting the growth of biological cells. The calibration process within DMEM plays an important role in the quantitative local evaluation of electromagnetic properties of biological samples under physiological conditions. Additionally, measurements are performed in distilled water for comparative analysis.
Author	Joseph, C. H Pierantoni, Luca Mencarelli, Davide di Donato, Andrea Morini, Antonio Al Hadi, Richard Farina, Marco Azman, S. N. Afifa Pietrangelo, Tiziana
AuthorAffiliation	University G d'Annunzio Chieti-Pescara Université du Quebec Department of Neuroscience Università Politecnica delle Marche Department of Information Engineering Imaging and Clinical Sciences École de Technologie Supérieure (ETS)
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Author_xml	– sequence: 1 givenname: Marco surname: Farina fullname: Farina, Marco – sequence: 2 givenname: C. H surname: Joseph fullname: Joseph, C. H – sequence: 3 givenname: S. N. Afifa surname: Azman fullname: Azman, S. N. Afifa – sequence: 4 givenname: Antonio surname: Morini fullname: Morini, Antonio – sequence: 5 givenname: Luca surname: Pierantoni fullname: Pierantoni, Luca – sequence: 6 givenname: Davide surname: Mencarelli fullname: Mencarelli, Davide – sequence: 7 givenname: Andrea surname: di Donato fullname: di Donato, Andrea – sequence: 8 givenname: Tiziana surname: Pietrangelo fullname: Pietrangelo, Tiziana – sequence: 9 givenname: Richard surname: Al Hadi fullname: Al Hadi, Richard
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References	Riba (D3RA03766E/cit7/1) 2018; 11 Gezahegn (D3RA03766E/cit9/1) 2021; 74 Anlage (D3RA03766E/cit1/1) 2007 Fabi (D3RA03766E/cit10/1) 2021; 69 Farina (D3RA03766E/cit3/1) 2011; 59 Jin (D3RA03766E/cit8/1) 2019; 67 Smythe (D3RA03766E/cit5/1) 1950 Gramse (D3RA03766E/cit4/1) 2014; 25 Gao (D3RA03766E/cit6/1) 1998; 69 Farina (D3RA03766E/cit2/1) 2019; 114
References_xml	– issn: 1950 publication-title: Static and Dynamic Electricity doi: Smythe – issn: 2007 end-page: p 215-253 publication-title: Principles of Near-Field Microwave Microscopy doi: Anlage Talanov Schwartz – volume: 25 start-page: 145703 issue: 14 year: 2014 ident: D3RA03766E/cit4/1 publication-title: Nanotechnology doi: 10.1088/0957-4484/25/14/145703 contributor: fullname: Gramse – volume: 11 start-page: 1090 issue: 5 year: 2018 ident: D3RA03766E/cit7/1 publication-title: Energies doi: 10.3390/en11051090 contributor: fullname: Riba – volume: 69 start-page: 3348 issue: 7 year: 2021 ident: D3RA03766E/cit10/1 publication-title: IEEE Trans. Microwave Theory Tech. doi: 10.1109/TMTT.2021.3072374 contributor: fullname: Fabi – volume: 114 start-page: 093703 issue: 9 year: 2019 ident: D3RA03766E/cit2/1 publication-title: Appl. Phys. Lett. doi: 10.1063/1.5086259 contributor: fullname: Farina – volume-title: Static and Dynamic Electricity year: 1950 ident: D3RA03766E/cit5/1 contributor: fullname: Smythe – volume: 69 start-page: 1998 year: 1998 ident: D3RA03766E/cit6/1 publication-title: Rev. Sci. Instrum. contributor: fullname: Gao – volume: 59 start-page: 2769 issue: 10 year: 2011 ident: D3RA03766E/cit3/1 publication-title: IEEE Trans. Microwave Theory Tech. doi: 10.1109/TMTT.2011.2161328 contributor: fullname: Farina – volume: 67 start-page: 5438 issue: 12 year: 2019 ident: D3RA03766E/cit8/1 publication-title: IEEE Trans. Microwave Theory Tech. doi: 10.1109/TMTT.2019.2941850 contributor: fullname: Jin – start-page: 215 volume-title: Principles of Near-Field Microwave Microscopy year: 2007 ident: D3RA03766E/cit1/1 contributor: fullname: Anlage – volume: 74 start-page: 102837 year: 2021 ident: D3RA03766E/cit9/1 publication-title: Innovative Food Sci. Emerging Technol. doi: 10.1016/j.ifset.2021.102837 contributor: fullname: Gezahegn
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SubjectTerms	Biological activity Biological properties Calibration Chemistry Distilled water Electromagnetic properties Lossy media Mathematical analysis Microscopes Numerical methods
Title	Analytical expressions for spreading resistance in lossy media and their application to the calibration of scanning microwave microscopy
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