This paper presents an overview of semiconductor materials used in gas sensors, their technology, design, and application. Semiconductor materials include metal oxides, conducting polymers, carbon nanotubes, and 2D materials. Metal oxides are most often the first choice due to their ease of fabrication, low cost, high sensitivity, and stability. Some of their disadvantages are low selectivity and high operating temperature. Conducting polymers have the advantage of a low operating temperature and can detect many organic vapors. They are flexible but affected by humidity. Carbon nanotubes are chemically and mechanically stable and are sensitive towards NO and NH3, but need dopants or modifications to sense other gases. Graphene, transition metal chalcogenides, boron nitride, transition metal carbides/nitrides, metal organic frameworks, and metal oxide nanosheets as 2D materials represent gas-sensing materials of the future, especially in medical devices, such as breath sensing. This ove...rview covers the most used semiconducting materials in gas sensing, their synthesis methods and morphology, especially oxide nanostructures, heterostructures, and 2D materials, as well as sensor technology and design, application in advance electronic circuits and systems, and research challenges from the perspective of emerging technologies.
Keywords:
sensing technology / semiconductor gas sensors / gas sensor applications / gas sensing materials
Source:
Sensors, 2020, 20, 22
Publisher:
MDPI, Basel
Funding / projects:
Ministry for Education, Science and Technological Development of the Republic of Serbia
TY - JOUR
AU - Nikolić, Maria Vesna
AU - Milovanović, Vladimir
AU - Vasiljević, Zorka Z
AU - Stamenković, Zoran
PY - 2020
UR - http://rimsi.imsi.bg.ac.rs/handle/123456789/1374
AB - This paper presents an overview of semiconductor materials used in gas sensors, their technology, design, and application. Semiconductor materials include metal oxides, conducting polymers, carbon nanotubes, and 2D materials. Metal oxides are most often the first choice due to their ease of fabrication, low cost, high sensitivity, and stability. Some of their disadvantages are low selectivity and high operating temperature. Conducting polymers have the advantage of a low operating temperature and can detect many organic vapors. They are flexible but affected by humidity. Carbon nanotubes are chemically and mechanically stable and are sensitive towards NO and NH3, but need dopants or modifications to sense other gases. Graphene, transition metal chalcogenides, boron nitride, transition metal carbides/nitrides, metal organic frameworks, and metal oxide nanosheets as 2D materials represent gas-sensing materials of the future, especially in medical devices, such as breath sensing. This overview covers the most used semiconducting materials in gas sensing, their synthesis methods and morphology, especially oxide nanostructures, heterostructures, and 2D materials, as well as sensor technology and design, application in advance electronic circuits and systems, and research challenges from the perspective of emerging technologies.
PB - MDPI, Basel
T2 - Sensors
T1 - Semiconductor Gas Sensors: Materials, Technology, Design, and Application
IS - 22
VL - 20
DO - 10.3390/s20226694
ER -
@article{
author = "Nikolić, Maria Vesna and Milovanović, Vladimir and Vasiljević, Zorka Z and Stamenković, Zoran",
year = "2020",
abstract = "This paper presents an overview of semiconductor materials used in gas sensors, their technology, design, and application. Semiconductor materials include metal oxides, conducting polymers, carbon nanotubes, and 2D materials. Metal oxides are most often the first choice due to their ease of fabrication, low cost, high sensitivity, and stability. Some of their disadvantages are low selectivity and high operating temperature. Conducting polymers have the advantage of a low operating temperature and can detect many organic vapors. They are flexible but affected by humidity. Carbon nanotubes are chemically and mechanically stable and are sensitive towards NO and NH3, but need dopants or modifications to sense other gases. Graphene, transition metal chalcogenides, boron nitride, transition metal carbides/nitrides, metal organic frameworks, and metal oxide nanosheets as 2D materials represent gas-sensing materials of the future, especially in medical devices, such as breath sensing. This overview covers the most used semiconducting materials in gas sensing, their synthesis methods and morphology, especially oxide nanostructures, heterostructures, and 2D materials, as well as sensor technology and design, application in advance electronic circuits and systems, and research challenges from the perspective of emerging technologies.",
publisher = "MDPI, Basel",
journal = "Sensors",
title = "Semiconductor Gas Sensors: Materials, Technology, Design, and Application",
number = "22",
volume = "20",
doi = "10.3390/s20226694"
}
Nikolić, M. V., Milovanović, V., Vasiljević, Z. Z.,& Stamenković, Z.. (2020). Semiconductor Gas Sensors: Materials, Technology, Design, and Application. in Sensors
MDPI, Basel., 20(22).
https://doi.org/10.3390/s20226694
Nikolić MV, Milovanović V, Vasiljević ZZ, Stamenković Z. Semiconductor Gas Sensors: Materials, Technology, Design, and Application. in Sensors. 2020;20(22).
doi:10.3390/s20226694 .
Nikolić, Maria Vesna, Milovanović, Vladimir, Vasiljević, Zorka Z, Stamenković, Zoran, "Semiconductor Gas Sensors: Materials, Technology, Design, and Application" in Sensors, 20, no. 22 (2020),
https://doi.org/10.3390/s20226694 . .
