Metal Oxide Gas Sensors to Study Acetone Detection Considering Their Potential in the Diagnosis of Diabetes: A Review

Metal oxide (MOx) gas sensors have attracted considerable attention from both scientific and practical standpoints. Due to their promising characteristics for detecting toxic gases and volatile organic compounds (VOCs) compared with conventional techniques, these devices are expected to play a key r...

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Published inMolecules (Basel, Switzerland) Vol. 28; no. 3; p. 1150
Main Authors Ochoa-Muñoz, Yasser H, Mejía de Gutiérrez, Ruby, Rodríguez-Páez, Jorge E
Format Journal Article
LanguageEnglish
Published Switzerland MDPI AG 24.01.2023
MDPI
Subjects
Acetone
Acetone - chemistry
Biomarkers
Comparative analysis
Diabetes
Diabetes mellitus
Diabetes Mellitus - diagnosis
Diabetics
Diagnosis
Disease
Environmental monitoring
Gas sensors
Gases
Gases - analysis
Glucose
Humans
Literature reviews
Mass spectrometry
Measurement techniques
Medicine
Metabolic disorders
metal oxide (MOx)
Metal oxides
micro/nanostructures
Organic compounds
Oxides - chemistry
Quality control
Review
Scientific imaging
Security
Sensors
Spectrometry
Vapors
VOCs
Volatile organic compounds
volatile organic compounds (VOCs)
Volatile Organic Compounds - analysis
Massachusetts
acetone
volatile organic compounds (VOCs)
metal oxide (MOx)
micro/nanostructures
diabetes
gas sensors
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Abstract Metal oxide (MOx) gas sensors have attracted considerable attention from both scientific and practical standpoints. Due to their promising characteristics for detecting toxic gases and volatile organic compounds (VOCs) compared with conventional techniques, these devices are expected to play a key role in home and public security, environmental monitoring, chemical quality control, and medicine in the near future. VOCs (e.g., acetone) are blood-borne and found in exhaled human breath as a result of certain diseases or metabolic disorders. Their measurement is considered a promising tool for noninvasive medical diagnosis, for example in diabetic patients. The conventional method for the detection of acetone vapors as a potential biomarker is based on spectrometry. However, the development of MOx-type sensors has made them increasingly attractive from a medical point of view. The objectives of this review are to assess the state of the art of the main MOx-type sensors in the detection of acetone vapors to propose future perspectives and directions that should be carried out to implement this type of sensor in the field of medicine.
AbstractList Metal oxide (MOx) gas sensors have attracted considerable attention from both scientific and practical standpoints. Due to their promising characteristics for detecting toxic gases and volatile organic compounds (VOCs) compared with conventional techniques, these devices are expected to play a key role in home and public security, environmental monitoring, chemical quality control, and medicine in the near future. VOCs (e.g., acetone) are blood-borne and found in exhaled human breath as a result of certain diseases or metabolic disorders. Their measurement is considered a promising tool for noninvasive medical diagnosis, for example in diabetic patients. The conventional method for the detection of acetone vapors as a potential biomarker is based on spectrometry. However, the development of MOx-type sensors has made them increasingly attractive from a medical point of view. The objectives of this review are to assess the state of the art of the main MOx-type sensors in the detection of acetone vapors to propose future perspectives and directions that should be carried out to implement this type of sensor in the field of medicine.
Audience Academic
Author Mejía de Gutiérrez, Ruby
Ochoa-Muñoz, Yasser H
Rodríguez-Páez, Jorge E
AuthorAffiliation 1 Composites Materials Group (GMC-CENM), Universidad del Valle, Cali 76001, Colombia
2 CYTEMAC Group, Universidad del Cauca, Popayán 190003, Colombia
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Issue 3
Keywords acetone
volatile organic compounds (VOCs)
metal oxide (MOx)
micro/nanostructures
diabetes
gas sensors
Language English
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Snippet Metal oxide (MOx) gas sensors have attracted considerable attention from both scientific and practical standpoints. Due to their promising characteristics for...
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SubjectTerms Acetone
Acetone - chemistry
Biomarkers
Comparative analysis
Diabetes
Diabetes mellitus
Diabetes Mellitus - diagnosis
Diabetics
Diagnosis
Disease
Environmental monitoring
Gas sensors
Gases
Gases - analysis
Glucose
Humans
Literature reviews
Mass spectrometry
Measurement techniques
Medicine
Metabolic disorders
metal oxide (MOx)
Metal oxides
micro/nanostructures
Organic compounds
Oxides - chemistry
Quality control
Review
Scientific imaging
Security
Sensors
Spectrometry
Vapors
VOCs
Volatile organic compounds
volatile organic compounds (VOCs)
Volatile Organic Compounds - analysis
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Title Metal Oxide Gas Sensors to Study Acetone Detection Considering Their Potential in the Diagnosis of Diabetes: A Review
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Volume 28
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