ANALYZING BaSrTiO3 GAS SENSOR PROPERTIES UNDER NO2 EXPOSURE: THE IMPACT OF IMPEDANCE SPECTROSCOPY

Bartłomiej Szafraniak; Łukasz Fuśnik; Jie Xu; Feng Gao; Andrzej Brudnik; Sabina Drewniak; Erwin Maciak; Łukasz Błajszczak; Artur Rydosz

doi:10.24425/mms.2025.152774

ANALYZING BaSrTiO₃ GAS SENSOR PROPERTIES UNDER NO₂ EXPOSURE: THE IMPACT OF IMPEDANCE SPECTROSCOPY

Bartłomiej Szafraniak, Łukasz Fuśnik, Jie Xu, Feng Gao, Andrzej Brudnik, Sabina Drewniak, Erwin Maciak, Łukasz Błajszczak, Artur Rydosz

Research output: Contribution to journal › Article › peer-review

Abstract

Impedance spectroscopy is an appropriate technique for studying the complexity of materials, in which their different frequency relationships can be exploited in such a manner that they can be efficiently separated. Barium strontium titanate BaSrTiO₃ (BST) is a ferroelectric material with unique properties that make it useful in a range of electronic applications. BST plays an important role in the field of gas-sensing applications. The potential application of BST material as a gas sensor for detecting nitrogen dioxide (NO₂) in the atmosphere was studied. Impedance spectroscopy studies were conducted across a wide frequency range from 10⁻¹ to 10⁶ Hz, in the temperature range of 100^◦C to 350^◦C and a relative humidity of 50%, and both in air and the presence of NO₂ in concentrations from 0.5 to 5 ppm. The results of the impedance analysis indicate that the broadband models, which comprise both single and parallel RC elements, can accurately represent the NO₂ gas interaction mechanism with the gas-sensitive layer of the BST material. These models were found to effectively capture changes in parameters associated with the interaction.

Original language	English
Pages (from-to)	1-19
Number of pages	19
Journal	Metrology and Measurement Systems
Volume	32
Issue number	1
DOIs	https://doi.org/10.24425/mms.2025.152774
State	Published - 2025
Externally published	Yes

Keywords

barium strontium titanate (BaSrTiO)
gas sensors
impedance spectroscopy
nitrogen dioxide

Access to Document

10.24425/mms.2025.152774

Cite this

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title = "ANALYZING BaSrTiO3 GAS SENSOR PROPERTIES UNDER NO2 EXPOSURE: THE IMPACT OF IMPEDANCE SPECTROSCOPY",

abstract = "Impedance spectroscopy is an appropriate technique for studying the complexity of materials, in which their different frequency relationships can be exploited in such a manner that they can be efficiently separated. Barium strontium titanate BaSrTiO3 (BST) is a ferroelectric material with unique properties that make it useful in a range of electronic applications. BST plays an important role in the field of gas-sensing applications. The potential application of BST material as a gas sensor for detecting nitrogen dioxide (NO2) in the atmosphere was studied. Impedance spectroscopy studies were conducted across a wide frequency range from 10−1 to 106 Hz, in the temperature range of 100◦C to 350◦C and a relative humidity of 50%, and both in air and the presence of NO2 in concentrations from 0.5 to 5 ppm. The results of the impedance analysis indicate that the broadband models, which comprise both single and parallel RC elements, can accurately represent the NO2 gas interaction mechanism with the gas-sensitive layer of the BST material. These models were found to effectively capture changes in parameters associated with the interaction.",

keywords = "barium strontium titanate (BaSrTiO), gas sensors, impedance spectroscopy, nitrogen dioxide",

author = "Bart{\l}omiej Szafraniak and {\L}ukasz Fu{\'s}nik and Jie Xu and Feng Gao and Andrzej Brudnik and Sabina Drewniak and Erwin Maciak and {\L}ukasz B{\l}ajszczak and Artur Rydosz",

note = "Publisher Copyright: {\textcopyright} 2025. The Author(s).",

year = "2025",

doi = "10.24425/mms.2025.152774",

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T1 - ANALYZING BaSrTiO3 GAS SENSOR PROPERTIES UNDER NO2 EXPOSURE

T2 - THE IMPACT OF IMPEDANCE SPECTROSCOPY

AU - Szafraniak, Bartłomiej

AU - Fuśnik, Łukasz

AU - Xu, Jie

AU - Gao, Feng

AU - Brudnik, Andrzej

AU - Drewniak, Sabina

AU - Maciak, Erwin

AU - Błajszczak, Łukasz

AU - Rydosz, Artur

PY - 2025

Y1 - 2025

N2 - Impedance spectroscopy is an appropriate technique for studying the complexity of materials, in which their different frequency relationships can be exploited in such a manner that they can be efficiently separated. Barium strontium titanate BaSrTiO3 (BST) is a ferroelectric material with unique properties that make it useful in a range of electronic applications. BST plays an important role in the field of gas-sensing applications. The potential application of BST material as a gas sensor for detecting nitrogen dioxide (NO2) in the atmosphere was studied. Impedance spectroscopy studies were conducted across a wide frequency range from 10−1 to 106 Hz, in the temperature range of 100◦C to 350◦C and a relative humidity of 50%, and both in air and the presence of NO2 in concentrations from 0.5 to 5 ppm. The results of the impedance analysis indicate that the broadband models, which comprise both single and parallel RC elements, can accurately represent the NO2 gas interaction mechanism with the gas-sensitive layer of the BST material. These models were found to effectively capture changes in parameters associated with the interaction.

AB - Impedance spectroscopy is an appropriate technique for studying the complexity of materials, in which their different frequency relationships can be exploited in such a manner that they can be efficiently separated. Barium strontium titanate BaSrTiO3 (BST) is a ferroelectric material with unique properties that make it useful in a range of electronic applications. BST plays an important role in the field of gas-sensing applications. The potential application of BST material as a gas sensor for detecting nitrogen dioxide (NO2) in the atmosphere was studied. Impedance spectroscopy studies were conducted across a wide frequency range from 10−1 to 106 Hz, in the temperature range of 100◦C to 350◦C and a relative humidity of 50%, and both in air and the presence of NO2 in concentrations from 0.5 to 5 ppm. The results of the impedance analysis indicate that the broadband models, which comprise both single and parallel RC elements, can accurately represent the NO2 gas interaction mechanism with the gas-sensitive layer of the BST material. These models were found to effectively capture changes in parameters associated with the interaction.

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