Jacek Gębicki scite author profile

Abstract:The paper presents principle of operation and design of the most popular chemical sensors for measurement of volatile organic compounds (VOCs) in outdoor and indoor air. It describes the sensors for evaluation of explosion risk including pellistors and IR-absorption sensors as well as the sensors for detection of toxic compounds such as electrochemical (amperometric), photoionization and semiconductor with solid electrolyte ones. Commercially available sensors for detection of VOCs and their metrological parameters-measurement range, limit of detection, measurement resolution, sensitivity and response time-were presented. Moreover, development trends and prospects of improvement of the metrological parameters of these sensors were highlighted.

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Hydrophobic deep eutectic solvents in microextraction techniques–A review

Makoś

Słupek

Gębicki

2020

Microchemical Journal

300

141

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Electronic noses in classification and quality control of edible oils: A review

et al. 2018

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Electronic noses: Powerful tools in meat quality assessment

et al. 2017

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Portable Electronic Nose Based on Electrochemical Sensors for Food Quality Assessment

Wojnowski

Majchrzak

Dymerski

et al. 2017

Sensors

122

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The steady increase in global consumption puts a strain on agriculture and might lead to a decrease in food quality. Currently used techniques of food analysis are often labour-intensive and time-consuming and require extensive sample preparation. For that reason, there is a demand for novel methods that could be used for rapid food quality assessment. A technique based on the use of an array of chemical sensors for holistic analysis of the sample’s headspace is called electronic olfaction. In this article, a prototype of a portable, modular electronic nose intended for food analysis is described. Using the SVM method, it was possible to classify samples of poultry meat based on shelf-life with 100% accuracy, and also samples of rapeseed oil based on the degree of thermal degradation with 100% accuracy. The prototype was also used to detect adulterations of extra virgin olive oil with rapeseed oil with 82% overall accuracy. Due to the modular design, the prototype offers the advantages of solutions targeted for analysis of specific food products, at the same time retaining the flexibility of application. Furthermore, its portability allows the device to be used at different stages of the production and distribution process.

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Jacek Gębicki

Currently Commercially Available Chemical Sensors Employed for Detection of Volatile Organic Compounds in Outdoor and Indoor Air

Hydrophobic deep eutectic solvents in microextraction techniques–A review

Electronic noses in classification and quality control of edible oils: A review

Electronic noses: Powerful tools in meat quality assessment

Portable Electronic Nose Based on Electrochemical Sensors for Food Quality Assessment

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