2004
DOI: 10.1016/j.chroma.2003.10.039
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Determination of bisphenol A diglycidyl ether and its hydrolysis and chlorohydroxy derivatives by liquid chromatography–mass spectrometry

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Cited by 48 publications
(17 citation statements)
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“…The case of BADGE.2HCl is more difficult to explain; it could be explained if the molecule loses its chloride anion and the hydroxyl groups of the chlorohydrin act as nucleophilic reagents, giving rise to a conjugated acid from which the epoxide arises by the elimination of a proton. Thereby, the formed molecule would act as BADGE, forming an adduct with a molecule of acetonitrile (m/z 382), which coincides with the information reported by other authors [42,43]. For BADGE.H 2 O.HCl, the same process as described for BADGE.2HCl takes place at the chlorinated end of the molecule, until the formation of the epoxy ring leading to a molecule of BADGE.H 2 O, which in negative ionization mode the most intense precursor ion observed (m/z 283) comes from the in-source α-cleavage of the ether bond [M-H-C 3 H 6 O 2 ] − [44].…”
Section: Targeted Analysissupporting
confidence: 89%
“…The case of BADGE.2HCl is more difficult to explain; it could be explained if the molecule loses its chloride anion and the hydroxyl groups of the chlorohydrin act as nucleophilic reagents, giving rise to a conjugated acid from which the epoxide arises by the elimination of a proton. Thereby, the formed molecule would act as BADGE, forming an adduct with a molecule of acetonitrile (m/z 382), which coincides with the information reported by other authors [42,43]. For BADGE.H 2 O.HCl, the same process as described for BADGE.2HCl takes place at the chlorinated end of the molecule, until the formation of the epoxy ring leading to a molecule of BADGE.H 2 O, which in negative ionization mode the most intense precursor ion observed (m/z 283) comes from the in-source α-cleavage of the ether bond [M-H-C 3 H 6 O 2 ] − [44].…”
Section: Targeted Analysissupporting
confidence: 89%
“…Some chlorinated and hydroxylated bisphenol diglycidyl ethers also suffer from significant in‐source fragmentation under negative‐APCI conditions. Although the base peak of the spectra is generally [M − H] − , other abundant characteristic fragment ions are also present, particularly those from the cleavage of the central alkyl chain (Sendon Garcia & Paseiro Losada, 2004; Sendon Garcia, Perex Lamela, & Paseiro Losda, 2005).…”
Section: Liquid Chromatography–mass Spectrometrymentioning
confidence: 99%
“…Therefore, with APCI, the ionization of AP n EOs is dispersed among many adduct ions with highly variable abundance, to produce a significant decrease in sensitivity and to make quantitation difficult. Acetonitrile cluster ions [M + CH 3 CNH] + of BADGEs and BFDGEs have been used as quantifiers to analyze these compounds in metal packaging, as well as precursor ions when these compounds are determined with LC–MS/MS (Sendon Garcia & Paseiro Losada, 2004; Sendon Garcia, Perex Lamela, & Paseiro Losda, 2005; Pardo et al, 2006). Another effect observed in positive‐APCI is that the mass spectra of BADGE·2HCl and BFDGE·2HCl are identical to those obtained for BADGE and BFDGE, respectively.…”
Section: Liquid Chromatography–mass Spectrometrymentioning
confidence: 99%
“…A similar difficulty was found in the analysis of BADGE and its related compounds employing the same technique. 23 As noted above, the 2-ring component of NOGE is bisphenol F diglycidyl ether (BFDGE); there are three isomers of BFDGE, seven of 3-ring NOGEs and 27 of 4-ring NOGEs. 18 The chromatographic separation of individual components with more than four rings has not been achieved due to the large number of isomers.…”
mentioning
confidence: 98%