1 12 Table of Contents 14 146

Вестник МГТУ. 2017, том 20, № 3.

Вестник МГТУ. 2017. Т. 20, № 3. С. 515–525. DOI: 10.21443/1560-9278-2017-20-3-515-525 523 11. Focher B., Naggi A., Torri G., Cosani A., Terbojevich M. Chitosans from Euphausia superba. 2: Characterization of solid state structure // Carbohydrate Polymers. 1992. V. 18, N 1. P. 43–49. 12. Novikov V. Yu., Brazhnaya I. E. Matematicheskoe modelirovanie reaktsii dezatsetilirovaniya hitina/hitozana [Mathematical modeling of deacetylation reaction of chitin/chitosan] // Tez. 8-y nauch.-tehn. konf. MGTU. Murmansk : MGTU. 1997. Ch. 2. P. 101–102. 13. Novikov V. Yu. Himicheskiy gidroliz hitina i hitozana [Chemical hydrolysis of chitin and chitosan] // Sovremennye perspektivy v issledovanii hitina i hitozana: materialy 7-y mezhdunar. konf. Sankt-Peterburg – Repino, 15–18 sent. 2003 g. M. : VNIRO, 2003. P. 38–42. 14. Yaghobi N., Mirzadeh H. Enhancement of chitin's degree of deacetylation by multistage alkali treatments // Iranian Polymer Journal. 2004. V. 13, N 2. P. 131–136. 15. Varum K. M., Anthonsen M. W., Grasdalen H., Smidsrod O. Determination of the degree of N-acetylation and the distribution of N-acetyl groups in partially N-deacetylated chitins (chitosans) by high-field n.m.r. spectroscopy // Carbohydrate Research. 1991. V. 211, N 1. P. 17–23. 16. Varum K. M., Anthonsen M. W., Grasdalen H., Smidsrod O. 13 C–N.m.r. studies of the acetylation sequences in partially N-deacetylated chitins (chitosans) // Carbohydrate Research. 1991. V. 217. P. 19–27. 17. Ottoy M. H., Varum K. M., Smidsrod O. Compositional heterogeneity of heterogeneously deacetylated chitosans // Carbohydrate Polymers. 1996. V. 29, N 1. P. 17–24. 18. Lamarque G., Cretenet M., Lucas J.-M. et al. Optimization of α - and β -chitin heterogeneous de-N-acetylation from a multi-step process: new route of de-N-acetylation by means of freeze-pump-thaw cycles // Advances in Chitin Science. V. VII / ed. by I. Boucher, K. Jamieson, A. Retnakaran. Montreal, 2004. P. 66–73. 19. Lamarque G., Cretenet M., Viton C., Domard A. New route of deacetylation of alpha- and beta- chitins by means of freeze-pump out-thaw cycles // Biomacromolecules. 2005. V. 6, N 3. P. 1380–1388. 20. Novikov V. Yu., Konovalova I. N., Kuchina Yu. A. [i dr.]. Vliyanie nadmolekulyarnoy struktury chastits hitina na kinetiku geterogennogo deatsetilirovaniya [Influence of chitin particles supramolecular structure on heterogeneous deacetylation kinetics] // Izvestiya Ufimskogo nauchnogo tsentra RAN. 2016. N 3 (1). P. 76–78. 21. Percot A., Chaussard G., Sorlier P. et al. Overall consideration on the evolution of the study of chitosan properties // Advances in Chitin Science. V. VII / ed. by I. Boucher, K. Jamieson, A. Retnakaran. Montreal, 2004. P. 1–6. 22. Nikitin V. M., Obolenskaya A. V., Schegolev V. P. Himiya drevesiny i tsellyulozy [Chemistry of wood and cellulose]. M. : Lesnaya prom-t, 1978. 368 p. 23. Novikov V. Yu., Orlova T. A., Volkova N. I. Mnogokratnoe ispolzovanie rastvora gidrookisi natriya dlya deatsetilirovaniya hitina [Reuse of sodium hydroxide solution for chitin deacetylation] // Rybnoe hozyaystvo. 1988. N 12. P. 76–78. 24. Novikov V. Yu., Sagaydachnyi V. A., Konovalova I. N. Zakonomernosti schelochnogo deatsetilirovaniya hitina [Regularities of alkali deacetylation of chitin] // Sovremennye perspektivy v issledovanii hitina i hitozana : materialy XI mezhdunar. konf. Murmansk, 25–30 iyunya 2012 g. Murmansk : Izd-vo RHO, 2012. P. 84–88. 25. Novikov V. Yu., Chebotok E. N., Gizatulina G. A., Konovalova I. N. Kineticheskie zakonomernosti himicheskogo deatsetilirovaniya hitina i hitozana [Kinetic laws of chemical deacetylation of chitin and chitosan] // Vestnik MGTU. 2005. V. 8, N 1. P. 179–182. 26. Kruglyi S. M. Proizvodstvo hlora, kausticheskoy sody i vodoroda [Production of chlorine, caustic soda and hydrogen]. M. : Vyssh. shk., 1967. 268 p. 27. Mischenko K. P., Poltoratskiy G. M. Termodinamika i stroenie vodnyh i nevodnyh rastvorov elektrolitov [Thermodynamics and the structure of water and non-aqueous electrolyte solutions]. L. : Himiya, 1976. 328 p. 28. Palascak M. W., Shields G. C. Accurate experimental values for the free energies of hydration of H + , OH – , and H 3 O + // The Journal of Physical Chemistry A. 2004. V. 108, N 16. P. 3692–3694. 29. Hummer G., Pratt L. R., Garcia A. E. Free energy of ionic hydration // The Journal of Physical Chemistry. 1996. V. 100, N 4. P. 1206–1215. 30. Pearson R. G. Ionization potentials and electron affinities in aqueous solution // Journal of the American Chemical Society. 1986. V. 108, N 20. P. 6109–6114. 31. Marcus Y. Thermodynamics of solvation of ions. Part 5. Gibbs free energy of hydration at 298.15 K // Journal of the Chemical Society, Faraday Transactions. 1991. V. 87, N 18. P. 2995–2999. Сведения об авторах Новиков Виталий Юрьевич – ул. Академика Книповича, 6, г. Мурманск, Россия, 183038; Полярный научно-исследовательский институт морского рыбного хозяйства и океанографии им. Н. М. Книповича (ПИНРО), канд. хим. наук, ст. науч. сотрудник; e-mail: nowitaly@yandex.ru

RkJQdWJsaXNoZXIy MTUzNzYz