Title:	The effect of the orientation towards analyte flow on electrochemical sensor performance and current fluctuations
Authors:	Sedlák, Petr Kuberský, Petr
Citation:	SEDLÁK, P., KUBERSKÝ, P. The effect of the orientation towards analyte flow on electrochemical sensor performance and current fluctuations. Sensors, 2020, roč. 20, č. 4, s. 1-17. ISSN 1424-8220.
Issue Date:	2020
Publisher:	MDPI
Document type:	článek article
URI:	2-s2.0-85079573649 http://hdl.handle.net/11025/37044
ISSN:	1424-8220
Keywords in different language:	analyte flow;current fluctuations;amperometric sensor;signal-to-noise ratio
Abstract in different language:	Analyte flow influences the performance of every gas sensor; thus, most of these sensors usually contain a diffusion barrier (layer, cover, inlet) that can prevent the negative impact of a sudden change of direction and/or the rate of analyte flow, as well as various unwanted impacts from the surrounding environment. However, several measurement techniques use the modulation of the flow rate to enhance sensor properties or to extract more information about the chemical processes that occur on a sensitive layer or a working electrode. The paper deals with the experimental study on how the analyte flow rate and the orientation of the electrochemical sensor towards the analyte flow direction influence sensor performance and current fluctuations. Experiments were carried out on a semi-planar, three-electrode topology that enabled a direct exposure of the working (sensing) electrode to the analyte without any artificial diffusion barrier. The sensor was tested within the flow rate range of 0.1–1 L/min and the orientation of the sensor towards the analyte flow direction was gradually set to the four angles 0°, 45°, 90° and 270° in the middle of the test chamber, while the sensor was also investigated in the standard position at the bottom of the chamber.
Rights:	© MDPI © Creative Commons Attribution License 4.0
Appears in Collections:	Články / Articles (KET) OBD

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