Extended internal standard method for quantitative 1H NMR assisted by chromatography (EIC) for analyte overlapping impurity on 1H NMR spectra

We devised a novel extended internal standard method of quantitative 1H NMR (qNMR) assisted by chromatography (EIC) that accurately quantifies 1H signal areas of analytes, even when the chemical shifts of the impurity and analyte signals overlap completely. When impurity and analyte signals overlap...

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Published inTalanta (Oxford) Vol. 184; pp. 484 - 490
Main Authors Saito, Naoki, Kitamaki, Yuko, Otsuka, Satoko, Yamanaka, Noriko, Nishizaki, Yuzo, Sugimoto, Naoki, Imura, Hisanori, Ihara, Toshihide
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.07.2018
Subjects
Analyte Overlapping impurity
Chlorophenol
Chromatography
EIC
Phenol
Quantitative 1H NMR
Phenol
Chlorophenol
Analyte Overlapping impurity
Quantitative 1H NMR
EIC
Chromatography
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Abstract We devised a novel extended internal standard method of quantitative 1H NMR (qNMR) assisted by chromatography (EIC) that accurately quantifies 1H signal areas of analytes, even when the chemical shifts of the impurity and analyte signals overlap completely. When impurity and analyte signals overlap in the 1H NMR spectrum but can be separated in a chromatogram, the response ratio of the impurity and an internal standard (IS) can be obtained from the chromatogram. If the response ratio can be converted into the 1H signal area ratio of the impurity and the IS, the 1H signal area of the analyte can be evaluated accurately by mathematically correcting the contributions of the 1H signal area of the impurity overlapping the analyte in the 1H NMR spectrum. In this study, gas chromatography and liquid chromatography were used. We used 2-chlorophenol and 4-chlorophenol containing phenol as an impurity as examples in which impurity and analyte signals overlap to validate and demonstrate the EIC, respectively. Because the 1H signals of 2-chlorophenol and phenol can be separated in specific alkaline solutions, 2-chlorophenol is suitable to validate the EIC by comparing analytical value obtained by the EIC with that by only qNMR under the alkaline condition. By the EIC, the purity of 2-chlorophenol was obtained with a relative expanded uncertainty (k = 2) of 0.24%. The purity matched that obtained under the alkaline condition. Furthermore, the EIC was also validated by evaluating the phenol content with the absolute calibration curve method by gas chromatography. Finally, we demonstrated that the EIC was possible to evaluate the purity of 4-chlorophenol, with a relative expanded uncertainty (k = 2) of 0.22%, which was not able to be separated from the 1H signal of phenol under any condition. [Display omitted] •EIC accurately quantified analyte to which impurity overlapped in 1H NMR spectrum.•EIC did not require reference materials of the analyte and the impurity.•Absolute calibration curve and pH control methods were used for validation of EIC.•Both gas and liquid chromatography were able to use for EIC.
AbstractList We devised a novel extended internal standard method of quantitative 1H NMR (qNMR) assisted by chromatography (EIC) that accurately quantifies 1H signal areas of analytes, even when the chemical shifts of the impurity and analyte signals overlap completely. When impurity and analyte signals overlap in the 1H NMR spectrum but can be separated in a chromatogram, the response ratio of the impurity and an internal standard (IS) can be obtained from the chromatogram. If the response ratio can be converted into the 1H signal area ratio of the impurity and the IS, the 1H signal area of the analyte can be evaluated accurately by mathematically correcting the contributions of the 1H signal area of the impurity overlapping the analyte in the 1H NMR spectrum. In this study, gas chromatography and liquid chromatography were used. We used 2-chlorophenol and 4-chlorophenol containing phenol as an impurity as examples in which impurity and analyte signals overlap to validate and demonstrate the EIC, respectively. Because the 1H signals of 2-chlorophenol and phenol can be separated in specific alkaline solutions, 2-chlorophenol is suitable to validate the EIC by comparing analytical value obtained by the EIC with that by only qNMR under the alkaline condition. By the EIC, the purity of 2-chlorophenol was obtained with a relative expanded uncertainty (k = 2) of 0.24%. The purity matched that obtained under the alkaline condition. Furthermore, the EIC was also validated by evaluating the phenol content with the absolute calibration curve method by gas chromatography. Finally, we demonstrated that the EIC was possible to evaluate the purity of 4-chlorophenol, with a relative expanded uncertainty (k = 2) of 0.22%, which was not able to be separated from the 1H signal of phenol under any condition.
We devised a novel extended internal standard method of quantitative 1H NMR (qNMR) assisted by chromatography (EIC) that accurately quantifies 1H signal areas of analytes, even when the chemical shifts of the impurity and analyte signals overlap completely. When impurity and analyte signals overlap in the 1H NMR spectrum but can be separated in a chromatogram, the response ratio of the impurity and an internal standard (IS) can be obtained from the chromatogram. If the response ratio can be converted into the 1H signal area ratio of the impurity and the IS, the 1H signal area of the analyte can be evaluated accurately by mathematically correcting the contributions of the 1H signal area of the impurity overlapping the analyte in the 1H NMR spectrum. In this study, gas chromatography and liquid chromatography were used. We used 2-chlorophenol and 4-chlorophenol containing phenol as an impurity as examples in which impurity and analyte signals overlap to validate and demonstrate the EIC, respectively. Because the 1H signals of 2-chlorophenol and phenol can be separated in specific alkaline solutions, 2-chlorophenol is suitable to validate the EIC by comparing analytical value obtained by the EIC with that by only qNMR under the alkaline condition. By the EIC, the purity of 2-chlorophenol was obtained with a relative expanded uncertainty (k = 2) of 0.24%. The purity matched that obtained under the alkaline condition. Furthermore, the EIC was also validated by evaluating the phenol content with the absolute calibration curve method by gas chromatography. Finally, we demonstrated that the EIC was possible to evaluate the purity of 4-chlorophenol, with a relative expanded uncertainty (k = 2) of 0.22%, which was not able to be separated from the 1H signal of phenol under any condition. [Display omitted] •EIC accurately quantified analyte to which impurity overlapped in 1H NMR spectrum.•EIC did not require reference materials of the analyte and the impurity.•Absolute calibration curve and pH control methods were used for validation of EIC.•Both gas and liquid chromatography were able to use for EIC.
Author Otsuka, Satoko
Kitamaki, Yuko
Nishizaki, Yuzo
Yamanaka, Noriko
Imura, Hisanori
Ihara, Toshihide
Saito, Naoki
Sugimoto, Naoki
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Keywords Phenol
Chlorophenol
Analyte Overlapping impurity
Quantitative 1H NMR
EIC
Chromatography
Language English
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Snippet We devised a novel extended internal standard method of quantitative 1H NMR (qNMR) assisted by chromatography (EIC) that accurately quantifies 1H signal areas...
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SubjectTerms Analyte Overlapping impurity
Chlorophenol
Chromatography
EIC
Phenol
Quantitative 1H NMR
Title Extended internal standard method for quantitative 1H NMR assisted by chromatography (EIC) for analyte overlapping impurity on 1H NMR spectra
URI https://dx.doi.org/10.1016/j.talanta.2018.03.003
https://search.proquest.com/docview/2028961455
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