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Emerging trends in metal oxide-based electronic noses for healthcare applications: a review

An electronic nose (E-nose) is a technology fundamentally inspired by the human nose, designed to detect, recognize, and differentiate specific odors or volatile components in complex and chaotic environments. Comprising an array of sensors with meticulously designed nanostructured architectures, E-...

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Published in:	Nanoscale 2024-05, Vol.16 (19), p.9259-9283
Main Authors:	Abideen, Zain Ul, Arifeen, Waqas Ul, Bandara, Y. M. Nuwan D. Y
Format:	Article
Language:	English
Subjects:	Algorithms Breath Tests Data analysis Electronic Nose Electronic noses Environmental monitoring Humans Metal oxides Metals - chemistry Nanostructures - chemistry Odors Oxides - chemistry Pattern recognition Portability Power consumption Sensor arrays Sensors Telemedicine
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description	An electronic nose (E-nose) is a technology fundamentally inspired by the human nose, designed to detect, recognize, and differentiate specific odors or volatile components in complex and chaotic environments. Comprising an array of sensors with meticulously designed nanostructured architectures, E-noses translate the chemical information captured by these sensors into useful metrics using complex pattern recognition algorithms. E-noses can significantly enhance the quality of life by offering preventive point-of-care devices for medical diagnostics through breath analysis, and by monitoring and tracking hazardous and toxic gases in the environment. They are increasingly being used in defense and surveillance, medical diagnostics, agriculture, environmental monitoring, and product validation and authentication. The major challenge in developing a reliable E-nose involves miniaturization and low power consumption. Various sensing materials are employed to address these issues. This review presents the key advancements over the last decade in E-nose technology, specifically focusing on chemiresistive metal oxide sensing materials. It discusses their sensing mechanisms, integration into portable E-noses, and various data analysis techniques. Additionally, we review the primary metal oxide-based E-noses for disease detection through breath analysis. Finally, we address the major challenges and issues in developing and implementing a portable metal oxide-based E-nose. This review explores recent progress in metal oxide semiconductor-based electronic noses, focusing on fabrication methods, data analysis techniques, disease detection potential, healthcare applications, challenges, and prospects.
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subjects	Algorithms Breath Tests Data analysis Electronic Nose Electronic noses Environmental monitoring Humans Metal oxides Metals - chemistry Nanostructures - chemistry Odors Oxides - chemistry Pattern recognition Portability Power consumption Sensor arrays Sensors Telemedicine
title	Emerging trends in metal oxide-based electronic noses for healthcare applications: a review
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