Quartz Crystal Micro-Balance Gas Sensor with Ink-Jet Printed Nano-Diamond Sensitive Layer

Pavel Kulha; Jiří Kroutil; Alexandr Laposa; Václav Procházka; Miroslav Husák

Journal ArticleOPEN ACCESS

Quartz Crystal Micro-Balance Gas Sensor with Ink-Jet Printed Nano-Diamond Sensitive Layer

Journal of Electrical Engineering (2016) 67(1) 61-64

DOI: 10.1515/jee-2016-0009

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Abstract

the paper presents fabrication and characterization of a Quartz Crystal Microbalance based gas sensor with a diamond powder sensitive layer deposited using the ink-jet printing technique. The sensor was exposed to a low concentration of ammonia, acetone vapors and different levels of humidity. Impedance characteristics close to the natural resonant frequency of 10 MHz were examined. The sensor exhibits significant shifts in serial resonant frequency under different gas environments.

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Kulha, P., Kroutil, J., Laposa, A., Procházka, V., & Husák, M. (2016). Quartz Crystal Micro-Balance Gas Sensor with Ink-Jet Printed Nano-Diamond Sensitive Layer. Journal of Electrical Engineering, 67(1), 61–64. https://doi.org/10.1515/jee-2016-0009

Quartz Crystal Micro-Balance Gas Sensor with Ink-Jet Printed Nano-Diamond Sensitive Layer

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