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An eNose-based method performing drift correction for online VOC detection under dry and humid conditions

Carsten Jaeschke, Johannes Glöckler, Marta Padilla, Jan Mitrovics, Boris Mizaikoff

2020Analytical Methods22 citationsDOI

Abstract

Our recently demonstrated innovative concept of electronic nose (eNose) based on a combination of gas sensors is further tested and benchmarked in the present study. The system is a test bed for gas sensors of different principal technologies distributed within three compartments, which share a compact, very low volume, temperature-controlled sensing chamber. Here, the eNose-based analyser contains three sensing arrays of commercially available semiconducting metal oxide (MOX) gas sensors: one compartment contains 8 analog MOX sensors, while the other two compartments comprise 10 digital MOX sensors. The presented instrument is explicitly tested for the discrimination between mid-range (3-18 ppm) concentrations of different volatile organic compounds (VOCs) including acetaldehyde, acetone, ethanol, ethyl acetate, isoprene and n-pentane under dry and humid conditions, which are all considered relevant gases in future breath diagnostic applications. Since the experiments were performed in periods of time separated by around 20 days, they are affected by drift. For this reason, we explore the opportunity of drift mitigation using methods based on component removal computed by linear discriminant analysis, partial least squares discriminant analysis and direct orthogonalization, which lend themselves to future in-field applications of the developed device and sensing methodology.

Topics & Concepts

Dry cleaningRemote sensingEnvironmental scienceMaterials scienceComputer scienceEngineeringGeographyWaste managementAdvanced Chemical Sensor TechnologiesGas Sensing Nanomaterials and SensorsInsect Pheromone Research and Control
An eNose-based method performing drift correction for online VOC detection under dry and humid conditions | Litcius