Development of Multi-Membrane Near-Infrared Diode Mass Spectrometer for Field Analysis of Aromatic Hydrocarbons

Mach, Phillip M.; Wright, Kenneth C.; Verbeck, Guido F.

doi:10.1007/s13361-014-1044-3

Cited by 12 publications

(8 citation statements)

References 26 publications

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“…Cooks and Ouyang pioneered the on-site analysis of condensed-phase and semivolatile organics in aqueous phase using small footprint miniaturized quadrupole ion trap based systems combined with a membrane inlet probe [40, 43–48]. Other groups have developed portable MIMS systems [49, 50] focusing on the development of portable quadrupole mass filters coupled with membrane inlet sampling for the direct in-situ analysis of a wide range of volatile organic compounds (VOCs) and semi-VOCs in both gaseous and aqueous phase [49, 51–55]. Most recently a series of VOCs have been used to encapsulate and modulate data using a portable MS coupled with a direct inlet membrane probe with high sensitivity [56].…”

Section: Introductionmentioning

confidence: 99%

In-Situ Analysis of Essential Fragrant Oils Using a Portable Mass Spectrometer

Jjunju

Giannoukos

Marshall

et al. 2019

International Journal of Analytical Chemistry

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A portable mass spectrometer was coupled to a direct inlet membrane (DIM) probe and applied to the direct analysis of active fragrant compounds (3-methylbutyl acetate, 2-methyl-3-furanthiol, methyl butanoate, and ethyl methyl sulfide) in real time. These fragrant active compounds are commonly used in the formulation of flavours and fragrances. Results obtained show that the portable mass spectrometer with a direct membrane inlet can be used to detect traces of the active fragrant compounds in complex mixtures such as essential fragrant oils and this represents a novel in-situ analysis methodology. Limits of detection (LOD) in the sub-ppb range (< 2.5 pg) are demonstrated. Standard samples in the gaseous phase presented very good linearity with RSD % at 5 to 7 for the selected active fragrant compounds (i.e., isoamyl acetate, 2-methyl-3-furanthiol, methyl butanoate, and methyl ethyl sulphide). The rise and fall times of the DIM probe are in the ranges from 15 to 31 seconds and 23 to 41 seconds, respectively, for the standard model compounds analysed. The identities of the fragrance active compounds in essential oil samples (i.e., banana, tangerine, papaya, and blueberry muffin) were first identified by comparison with a standard fragrance compounds mixture using their major fragment peaks, the NIST standard reference library, and gas chromatography mass spectrometry (GC-MS) analysis. No sample preparation is required for analysis using a portable mass spectrometer coupled to a DIM probe, so the cycle time from ambient air sampling to the acquisition of the results is at least 65 seconds.

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Section: Introductionmentioning

confidence: 99%

In-Situ Analysis of Essential Fragrant Oils Using a Portable Mass Spectrometer

Jjunju

Giannoukos

Marshall

et al. 2019

International Journal of Analytical Chemistry

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“…[1] HPMS provides a path forward for the development of portable MS by reducing the overall vacuum requirements and eliminating the need for large, complex, and fragile pumping systems that include turbomolecular pumps. Other miniature mass spectrometers have been developed for many applications including forensics, [2,3] environmental monitoring, [4][5][6] detection of explosives [7] or chemical warfare agents, [8,9] and clinical analyses. [10] Two recent reviews cover miniature and portable mass spectrometers for these and other applications, as well as the future directions of MS miniaturization.…”

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confidence: 99%

High pressure mass spectrometry of volatile organic compounds with ambient air buffer gas

Blakeman

Cavanaugh

Gilliland

et al. 2016

Rapid Comm Mass Spectrometry

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“…Although PAHs are very hydrophobic (typical log K ow values in the 3-6 range [16]), making them well suited for PDMS based MIMS measurements, their low volatilities make their direct, on-line measurement by GP-MIMS problematic. Thermally assisted GP-MIMS approaches have been used to measure selected PAHs [18][19][20][21]. Although demonstrating potential on-line analytical capability for PAHs, eliminating the need for thermal desorption would simplify their measurement.…”

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confidence: 99%

Condensed Phase Membrane Introduction Mass Spectrometry with Direct Electron Ionization: On-line Measurement of PAHs in Complex Aqueous Samples

Termopoli

Famiglini

Palma

et al. 2015

J. Am. Soc. Mass Spectrom.

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Abstract. Polycyclic aromatic hydrocarbons (PAHs) are USEPA regulated priority pollutants. Their low aqueous solubility requires very sensitive analytical methods for their detection, typically involving preconcentration steps. Presented is the first demonstrated 'proof of concept' use of condensed phase membrane introduction mass spectrometry (CP-MIMS) coupled with direct liquid electron ionization (DEI) for the direct, on-line measurement of PAHs in aqueous samples. DEI is very well suited for the ionization of PAHs and other nonpolar compounds, and is not significantly influenced by the co-elution of matrix components. Linear calibration data for low ppb levels of aqueous naphthalene, anthracene, and pyrene is demonstrated, with measured detection limits of 4 ppb. Analytical response times (t 10%-90% signal rise) ranged from 2.8 min for naphthalene to 4.7 min for pyrene. Both intra-and interday reproducibility has been assessed (<3% and 5% RSD, respectively). Direct measurements of ppb level PAHs spiked in a variety of real, complex environmental sample matrices is examined, including natural waters, sea waters, and a hydrocarbon extraction production waste water sample. For these spiked, complex samples, direct PAH measurement by CP-MIMS-DEI yielded minimal signal suppression from sample matrix effects (81%-104%). We demonstrate the use of this analytical approach to directly monitor real-time changes in aqueous PAH concentrations with potential applications for continuous on-line monitoring strategies and binding/adsorption studies in heterogeneous samples.

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Development of Multi-Membrane Near-Infrared Diode Mass Spectrometer for Field Analysis of Aromatic Hydrocarbons

Cited by 12 publications

References 26 publications

In-Situ Analysis of Essential Fragrant Oils Using a Portable Mass Spectrometer

In-Situ Analysis of Essential Fragrant Oils Using a Portable Mass Spectrometer

High pressure mass spectrometry of volatile organic compounds with ambient air buffer gas

Condensed Phase Membrane Introduction Mass Spectrometry with Direct Electron Ionization: On-line Measurement of PAHs in Complex Aqueous Samples

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