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Optical Gas Sensing with Liquid Crystal Droplets and Convolutional Neural Networks

José Frazão, Susana Palma, Henrique M. A. Costa, Cláudia Alves, Ana Cecília A. Roque, Margarida Silveira

2021Sensors28 citationsDOIOpen Access PDF

Abstract

Liquid crystal (LC)-based materials are promising platforms to develop rapid, miniaturised and low-cost gas sensor devices. In hybrid gel films containing LC droplets, characteristic optical texture variations are observed due to orientational transitions of LC molecules in the presence of distinct volatile organic compounds (VOC). Here, we investigate the use of deep convolutional neural networks (CNN) as pattern recognition systems to analyse optical textures dynamics in LC droplets exposed to a set of different VOCs. LC droplets responses to VOCs were video recorded under polarised optical microscopy (POM). CNNs were then used to extract features from the responses and, in separate tasks, to recognise and quantify the vapours exposed to the films. The impact of droplet diameter on the results was also analysed. With our classification models, we show that a single individual droplet can recognise 11 VOCs with small structural and functional differences (F1-score above 93%). The optical texture variation pattern of a droplet also reflects VOC concentration changes, as suggested by applying a regression model to acetone at 0.9–4.0% (v/v) (mean absolute errors below 0.25% (v/v)). The CNN-based methodology is thus a promising approach for VOC sensing using responses from individual LC-droplets.

Topics & Concepts

VapoursConvolutional neural networkTexture (cosmology)Materials scienceOptical microscopeAcetoneAnalytical Chemistry (journal)ChemistryPattern recognition (psychology)ChromatographyArtificial intelligenceComputer scienceOrganic chemistryComposite materialImage (mathematics)Scanning electron microscopeBiologyNeuroscienceAdvanced Chemical Sensor TechnologiesInsect Pheromone Research and ControlGas Sensing Nanomaterials and Sensors
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