The 31 references in paper S. Moiseev V., V. Krylov I., N. Kuzmina E., V. Yashkir A., V. Merkulov A., С. Моисеев В., В. Крылов И., Н. Кузьмина Е., В. Яшкир А., В. Меркулов А. (2018) “Использование метода ЯМР-спектроскопии в фармакопейном анализе // The use of NMR-spectroscopy in pharmacopoeial analysis” / spz:neicon:vedomostincesmp:y:2016:i:2:p:53-57

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Kuzmina NE, Moiseev SV, Yashkir VA, Merkulov VA. The use of magnetic resonance spectroscopy for authentication, identification and assay of impurites in routine substance. Vedomosti Nauchnogo tsentra ekspertizy sredstv meditsinskogo primeneniya 2012; (3): 14–18 (in Russian).
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Kuzmina NE, Moiseev SV, Krylov VI, Yashkir VA, Merkulov VA. The possibility of using diffusion-ordered NMR spectroscopy for quantitative analysis of Pullulan average molecular weight. Vedomosti Nauchnogo tsentra ekspertizy sredstv meditsinskogo primeneniya 2013; (4): 8–11 (in Russian).
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Moiseev SV, Kuzmina NE, Krylov VI, Yashkir VA, Merkulov VA. The determination of molecular weight distribution parameters of dextrans with the diffusion-ordered NMR spectroscopy technique. Vedomosti Nauchnogo tsentra ekspertizy sredstv meditsinskogo primeneniya 2014; (2): 9–15 (in Russian).
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Kuzmina NE, Moiseev SV, Krylov VI, Yashkir VA, Merkulov VA. Quantitative determination of the average molecular weight of dextrans by method of diffusely-ordered NMR spectroscopy. Zhurnal analiticheskoy himii 2014; 69(10): 1047–53 (in Russian).
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Kuzmina NE, Moiseev SV, Krylov VI, Yashkir VA, Merkulov VA. Determination of average molecular weight hydroxyethyl starch by diffusion-ordered NMR spectroscopy. Zhurnal analiticheskoy himii 2015; 70(1): 30–36 (in Russian).
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Kuzmina NE, Moiseev SV, Krylov VI, Yashkir VA, Merkulov VA. Determination of the parameters of the molecular weight distribution of hydroxyethyl starch by diffusion-ordered NMR spectroscopy. Zhurnal analiticheskoy himii 2015; 70(7): 727–33 (in Russian).
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Kuzmina NE, Moiseev SV, Krylov VI, Yashkir VA, Merkulov VA. Modification of the methodology for determining the molar substitution of hydroxyethyl starch by1H NMR spectroscopy. Himiko-farmatsevticheskiy zhurnal 2015;49(8): 44–48 (in Russian). AUTHORS
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