Труды КНЦ (Технические науки вып.1/2025(16))

Труды Кольского научного центра РАН. Серия: Технические науки. 2025. Т. 16, № 1. С. 89-92. Transactions of the Kola Science Centre of RAS. Series: Engineering Sciences. 2025. Vol. 16, No. 1. P. 89-92. References 1. Binnemans K., Jones P. T., Blanpain B., Van Gerven T., Yang Y., Walton A., Buchert M. Recycling of Rare Earths: A Critical Review. J Clean Prod., 2013, Vol. 51, pp. 1-22. 2. Habibzadeh A., Kucuker M. A., Gokelma M. Review on the Parameters of Recycling NdFeB Magnets via a Hydrogenation Process. ACS Omega, 2023, Vol. 8, no. 20, pp. 17431-17445. 3. Rademaker J. H., KleijnR., YangY. Recyclingas a Strategy againstRare EarthElement Criticality: A SystemicEvaluation ofthe Potential Yield ofNdFeB Magnet Recycling. Environ. Sci. Technol., 2013, Vol. 47, no. 18, pp. 10129-10136. 4. Riano S., Binnemans K. Extraction and Separation of Neodymium and Dysprosium from Used NdFeB Magnets: An Application of Ionic Liquids in Solvent Extraction towards the Recycling ofMagnets. Green Chemistry, 2015, Vol. 17, no. 5, pp. 2931-2942. 5. Banda R., Forte F., Onghena B., Binnemans K. Yttrium and Europium Separation by Solvent Extraction with Undiluted Thiocyanate Ionic Liquids. RSCAdv., 2019, Vol. 9, no. 9, pp. 4876-4883. 6. Kozhevnikova A. V., Zinov’eva I. V., Milevskii N. A., Zakhodyaeva Y. A., Voshkin A. A. Complex Extraction of Rare Earth Elements from Nitrate Solutions with a Tri-n-Octylamine-Octanoic Acid Bifunctional Ionic Liquid. J. Mol. Liq ., 2023, Vol. 390. 7. Guidugli L. F., Reza T. Extraction of Rare Earth Elements from Water by Trioctylphosphine Oxide-Based Hydrophobic Deep Eutectic Solvents. Ind. Eng. Chem. Res., 2024. 8. Babu M. K. S., Katchala N., Sivakumar Natarajan T., Suresh S., Kancharla S. Nd(III) and Dy(III) Extraction from Discarded NdFeB Magnets Using TOPO-Based Hydrophobic Eutectic Solvents. J. Mol. Liq., 2024, Vol. 402. 9. Ni S., Gao Y., Yu G., Zhang S., Zeng Z., SunX. Tailored Ternary Hydrophobic Deep Eutectic Solvents for Synergistic Separation ofYttrium fromHeavy Rare Earth Elements. Green Chemistry, 2022, Vol. 24, no. 18, pp. 7148-7161. 10. Devi M., Moral R., Thakuria S., Mitra A., Paul S. Hydrophobic Deep Eutectic Solvents as Greener Substitutes for Conventional Extraction Media: Examples and Techniques. ACS Omega, 2023, Vol. 8, no. 11, pp. 9702-9728. 11. NguyenV.N.H., NguyenT.H., Lee M.S. Review on the Comparisonof the Chemical Reactivity of Cyanex 272, Cyanex 301 and Cyanex 302 for Their Application to Metal Separation from AcidMedia. Metals, 2020, Vol. 10, pp. 1105. 12. Zinov’eva I. V., Chikineva T. Yu., Zakhodyaeva Y. A., Voshkin A. A. Bis(2,4,4-trimethylpentyl)phosphinic acid/phenol deep eutectic solvent: Physicochemical properties and application prospects for the extraction of trivalent rare earth elements. J. Mol. Liq., 2025, Vol. 423. 13. Jensen M. P., Bond A. H. Influence of aggregation on the extraction of trivalent lanthanide and actinide cations by purified Cyanex 272, Cyanex 301, and Cyanex 302. Radiochim. Acta, 2002, Vol. 90, pp. 205-209. Информация об авторах Т. Ю. Чикинёва — младший научный сотрудник; И. В. Зиновьева — кандидат химических наук, научный сотрудник; Ю. А. Заходяева — кандидат химических наук, старший научный сотрудник; А. А. Вошкин — член-корреспондент РАН, доктор технических наук, заместитель директора. Information about the authors T. Yu. Chikineva — Research Assistant; I. V. Zinov’eva — PhD (Chemistry), Researcher; Y. A. Zakhodyaeva — PhD (Chemistry), Senior Researcher; A. A. Voshkin — Corr. Member RAS, DSc (Engineering), Deputy Director. Статья поступила в редакцию 30.05.2025; одобрена после рецензирования 20.06.2025; принята к публикации 30.06.2025. The article was submitted 30.05.2025; approved after reviewing 20.06.2025; accepted for publication 30.06.2025. 92 © Чикинёва Т. Ю., Зиновьева И. В., Заходяева Ю. А., Вошкин А. А., 2025