Multielement Detection of Nonmetals by Barium-Based Post-ICP Chemical Ionization Coupled to Orbitrap-MS

Hahm, Grace; Redeker, Frenio A.; Jorabchi, Kaveh

doi:10.1021/jasms.3c00424

J. Am. Soc. Mass Spectrom.

2024

DOI: 10.1021/jasms.3c00424

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Multielement Detection of Nonmetals by Barium-Based Post-ICP Chemical Ionization Coupled to Orbitrap-MS

Grace Hahm,

Frenio A. Redeker,

Kaveh Jorabchi

Abstract: Prevalence of F, Cl, S, P, Br, and I in pharmaceuticals and environmental contaminants has promoted standard-free quantitation using analyte-independent heteroatom responses in inductively coupled plasma (ICP)-MS. However, inplasma ionization challenges and element-dependent isobaric interference removal methods have hampered the multielement nonmetal detection in ICP-MS. Here, we examine an alternative approach to enhance multielement detection capabilities. Analytes are introduced into an ICP leading to post… Show more

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Cited by 2 publications

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Notizen aus der Chemie

Barra,

Heine,

Hoch

et al. 2024

Nachr Chem

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Notizen aus der Chemie

Barra,

Heine,

Hoch

et al. 2024

Nachr Chem

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Post-ICP Chemical Ionization MS for Total Extractable Organic Fluorine Quantitation

White,

Jorabchi

2024

ACS Omega

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Total extractable organic fluorine (EOF) quantitation complements targeted analyses to ensure complete accounting of all fluorochemicals in a sample. Notably, the prevalence of perfluoroalkyl substances has increased the need for total EOF quantitation due to the myriad forms of these chemicals and the limited availability of standards for targeted analysis. Here, we evaluate postplasma chemical ionization mass spectrometry (MS), an approach developed to address the limitations of inductively coupled plasma (ICP)-MS in F analysis, for total EOF quantitation. Organofluorine-containing samples are introduced into an ICP, leading to the post-ICP formation of HF, which is then ionized to ScFNO 3 (H 2 O) n + and detected by quadrupole MS. We report optimal F detection across a wide range of ICP operating parameters, highlighting robust ion generation processes. We then compare sample introduction methods and show that a single-pass spray chamber mitigates volatility-related biases, yielding compound-independent F response factors and an instrumental detection limit of 2.2 ng of F mL −1 by using flow injections. This detection limit is 10-fold better than that offered by ICP-MS and comparable to that of combustion ion chromatography. Subsequently, we conduct total EOF quantitation of food contact paper products via methanolic extraction of 3 cm × 3 cm samples followed by 8-fold preconcentration with solid phase extraction and flow injections, achieving a detection limit of 1.2 ng F cm −2 . We show that organic fluorine is detected on all 9 locally collected food contact paper products with total EOF contents of 22−363 ng F cm −2 . These studies expand elemental MS capabilities in F analysis and highlight post-ICP chemical ionization MS as a facile total EOF quantitation technique.

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Multielement Detection of Nonmetals by Barium-Based Post-ICP Chemical Ionization Coupled to Orbitrap-MS

Cited by 2 publications

References 33 publications

Notizen aus der Chemie

Notizen aus der Chemie

Post-ICP Chemical Ionization MS for Total Extractable Organic Fluorine Quantitation

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