2023
DOI: 10.3390/chemosensors11020111
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SIFT-MS: Quantifying the Volatiles You Smell…and the Toxics You Don’t

Abstract: The human olfactory system is highly attuned to detection of a wide range of volatile organic compounds (VOCs), but the sensitivity varies considerably based on chemical functionality. Whereas most humans can appreciate the sensory properties of certain foods, beverages, and fragrances, and at times be alerted to volatile chemical hazards, many VOCs are hazardous below the human odor detection threshold. Since its introduction in the mid-1990s, selected ion flow tube mass spectrometry (SIFT-MS) has been widely… Show more

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Cited by 19 publications
(27 citation statements)
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“…The SIFT-MS technique has been described in detail elsewhere [12,18,20]. Briefly, SIFT-MS is a DIMS technique that analyzes air and headspace continuously using ultrasoft chemical ionization, which efficiently ionizes a very broad range of VOCs but does not ionize the bulk constituents of air.…”
Section: Automated Sift-ms Analysismentioning
confidence: 99%
“…The SIFT-MS technique has been described in detail elsewhere [12,18,20]. Briefly, SIFT-MS is a DIMS technique that analyzes air and headspace continuously using ultrasoft chemical ionization, which efficiently ionizes a very broad range of VOCs but does not ionize the bulk constituents of air.…”
Section: Automated Sift-ms Analysismentioning
confidence: 99%
“…SIFT-MS is commonly used for environmental air monitoring, industrial hygiene, and breath analysis. [16][17][18] In PTR-MS analysis, understanding the physical and chemical properties of the analyte molecules is essential for successful and accurate detection and quantification. In particular, proton affinity, ionization efficiency, stability and reactivity, and reaction rates are named a few.…”
Section: Introductionmentioning
confidence: 99%
“…It can simultaneously analyze multiple VOCs with high sensitivity and accuracy. SIFT‐MS is commonly used for environmental air monitoring, industrial hygiene, and breath analysis 16–18 …”
Section: Introductionmentioning
confidence: 99%
“…Aromatic compounds are an essential chemical class which are analysed in gas-phase complex matrices including human breath; 1–3 headspace of samples such as cosmetics 4 and food stuffs; 5 ambient air for air quality analysis for environmental monitoring purposes; 6–9 as well as investigating ion–molecule reactions, at the centre of the SIFT-MS technique. In particular, aromatic compounds are often of great interest in the field of atmospheric chemistry and air pollution research as many of these species are known to be highly toxic and are released from anthropogenic emissions into the atmosphere, diminishing air quality.…”
Section: Introductionmentioning
confidence: 99%
“…Whilst analyses of mixtures of multiple analytes are possible, it is currently not easy to analyse isomeric or isobaric species present simultaneously within a matrix. However, as the range of reagent ions available to SIFT-MS has been recently expanded to include anions (H 3 O + , NO + , O 2 + , O À , OH À , O 2 À , NO 2 À , NO 3 À ), there is potential to use differing ionic products, produced from the range of reactions to facilitate simultaneous quantification, of isobaric species using SIFT-MS. Aromatic compounds are an essential chemical class which are analysed in gas-phase complex matrices including human breath; [1][2][3] headspace of samples such as cosmetics 4 and food stuffs; 5 ambient air for air quality analysis for environmental monitoring purposes; [6][7][8][9] as well as investigating ion-molecule reactions, at the centre of the SIFT-MS technique. In particular, aromatic compounds are often of great interest in the field of atmospheric chemistry and air pollution research as many of these species are known to be highly toxic and are released from anthropogenic emissions into the atmosphere, diminishing air quality.…”
Section: Introductionmentioning
confidence: 99%