Труды КНЦ (Технические науки вып.3/2023(14))

2. Silica-Based Mesoporous Organic-Inorganic Hybrid / F. Hoffmann [et al.] // Materials Angew. Chem. Int. Ed. 2006. Vol. 45. P. 3216-3251. 3. Perspectives in catalytic applications of mesostructured materials / D. Trong On [et al.] // Applied Catalysis A: General. 2003. Vol. 253. P. 545-602. 4. Physisorption of gases, with special reference to the evaluation of surface area and pore size distribution (IUPAC Technical Report) / M. Thommes [et al.] // Pure and Applied Chemistry. 2015. Vol. 87, No. 9-10. P. 1051-1069. 5. Olivier J. P. The Determination of Surface Energetic Heterogeneity Using Model Isotherms Calculated by Density Functional Theory // Proc. Fifth International Conference on Fundamentals of Adsorption. Boston, Massachusetts: Kluwer Academic Publishers, 1996. P. 699-706. 6. Bardestani R., Patience G.S., Kaliaguine S. Experimental methods in chemical engineering: specific surface area and pore size distribution measurements — BET, BJH, and DFT // Can. J. Chem. Eng. 2019. Vol. 97. P. 2781-2791. References 1. Ariga K., Vinu A., Hill J. P., Mori T. Coordination chemistry and supramolecular chemistry in mesoporous nanospace. Coordination Chemistry Reviews, 2007, Vol. 251, pp. 2562-2591. 2. Hoffmann F., Cornelius M., Morell J., Froba M. Silica-Based Mesoporous Organic-Inorganic Hybrid. Angewandte Chemie International Edition, 2006, Vol. 45, pp. 3216-3251. 3. Trong On D., Desplantier-Giscard D., Danumah C., Kaliaguine S. Perspectives in catalytic applications o f mesostructured materials. Applied Catalysis A: General, 2003, Vol. 253, pp. 545-602. 4. Thommes M., Kaneko K., Neimark A., Olivie J., Rodriguez-Reinoso F., Rouquerol J., Sing K. Physisorption o f gases, with special reference to the evaluation of surface area and pore size distribution (IUPAC Technical Report). Pure and Applied Chemistry, 2015, Vol. 87, No. 9-10, pp. 1051-1069. 5. Olivier J. P. The Determination of Surface Energetic Heterogeneity Using Model Isotherms Calculated by Density Functional Theory. Proceedings o f the Fifth International Conference on Fundamentals o f Adsorption. Boston, Massachusetts, Kluwer Academic Publishers, 1996, pp. 699-706. 6. Bardestani R., Patience G. S., Kaliaguine S. Experimental methods in chemical engineering: specific surface area and pore size distribution measurements — BET, BJH, and DFT. The Canadian Journal of Chemical Engineering, 2019, Vol. 97, pp. 2781-2791. Информация об авторах Т. Ф . Кузнецова — кандидат химических наук, доцент, зав. лабораторией; Е. А . К о п ы ш — магистрант, младший научный сотрудник; П . М . Смольская — студент; Д. Ж . Жумаева — доктор технических наук, профессор, руководитель фундаментальных и прикладных проектов; А . И . И ванец - член-корреспондент, доктор химических наук, профессор, ведущий научный сотрудник. Information about the authors T. F. Kouznetsova — PhD (Chemistry), Associate Professor, Head of the Laboratory; E. A . Kopysh — Undergraduate, Junior Researcher; P. M . Smolskaya — Student; D. J. Jumaeva — Dr. Sc. (Engineering), Professor, Head of Fundamental and Applied Projects; A . I. Ivanets — Corresponding Member, Dr. Sc. (Chemistry), Professor, Leading Researcher. Статья поступила в редакцию 02.02.2023; одобрена после рецензирования 13.02.2023; принята к публикации 14.02.2023. The article was submitted 02.02.2023; approved after reviewing 13.02.2023; accepted for publication 14.02.2023. Труды Кольского научного центра РАН. Серия: Технические науки. 2023. Т. 14, № 3. С. 210-215. Transactions of the Kola Science Centre of RAS. Series: Engineering Sciences. 2023. Vol. 14, No. 3. P. 210-215. © Кузнецова Т. Ф., Копыш Е. А., Смольская П. М., Жумаева Д. Ж., Иванец А. И., 2023 215

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