Open AccessUnique Usage of a Classical Selective Homodecoupling Sequence for High-Resolution Quantitative 1H NMR
Author(s) -
Naoki Saito,
Takanori Komatsu,
Takako Suematsu,
Tetsuo Miyamoto,
Toshihide Ihara
Publication year - 2020
Publication title -
analytical chemistry
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 2.117
H-Index - 332
eISSN - 1520-6882
pISSN - 0003-2700
DOI - 10.1021/acs.analchem.0c03154
Subject(s) - chemistry , sequence (biology) , resolution (logic) , pulse sequence , nuclear magnetic resonance spectroscopy , nuclear magnetic resonance , stereochemistry , artificial intelligence , physics , biochemistry , computer science
Classical selective homodecoupling was used in a 1 H NMR purity assay to improve accuracy by overcoming spectral overlaps due to 1 H- 1 H spin coupling. Dummy irradiation at a specific frequency was used in addition to irradiation at a 1 H resonance of the analyte to avoid irradiation bias. The method was validated in a 1 H NMR purity assay of high-purity diethyl phthalate (National Metrology Institute of Japan Certified Reference Material (NMIJ CRM), purity: 99.98%). The obtained purity value biases were 0.27% or less. The utility of the method was demonstrated in another 1 H NMR purity assay of dipropyl phthalate (NMIJ CRM, purity: 98.41%), which contained a tiny amount of the structurally similar compound methyl propyl phthalate as an impurity. An accurate assay was achieved with the method, giving a purity of 98.39%, whereas the conventional method gave a purity 99.13%.
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