Ammonia Gas Sensor Response of a Vertical Zinc Oxide Nanorod-Gold Junction Diode at Room Temperature

Conventional metal oxide semiconductor (MOS) gas sensors have been investigated for decades to protect our life and property. However, the traditional devices can hardly fulfill the requirements of our fast developing mobile society, because the high operating temperatures greatly limit their applic...

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Bibliographic Details
Published in:ACS sensors 2020-11, Vol.5 (11), p.3568-3575
Main Authors: Tu, Ying, Kyle, Candice, Luo, Hui, Zhang, De-Wen, Das, Anirban, Briscoe, Joe, Dunn, Steve, Titirici, Maria-Magdalena, Krause, Steffi
Format: Article
Language:English
Subjects:
Ammonia
Gases
Gold
Metal Nanoparticles
Nanotubes
Temperature
Zinc Oxide
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Summary:Conventional metal oxide semiconductor (MOS) gas sensors have been investigated for decades to protect our life and property. However, the traditional devices can hardly fulfill the requirements of our fast developing mobile society, because the high operating temperatures greatly limit their applications in battery-loaded portable systems that can only drive devices with low power consumption. As ammonia is gaining importance in the production and storage of hydrogen, there is an increasing demand for energy-efficient ammonia detectors. Hence, in this work, a Schottky diode resulting from the contact between zinc oxide nanorods and gold is designed to detect gaseous ammonia at room temperature with a power consumption of 625 μW. The Schottky diode gas sensors benefit from the change of barrier height in different gases as well as the catalytic effect of gold nanoparticles. This diode structure, fabricated without expensive interdigitated electrodes and displaying excellent performance at room temperature, provides a novel method to equip mobile devices with MOS gas sensors.
ISSN:2379-3694
2379-3694
DOI:10.1021/acssensors.0c01769