Труды КНЦ (Технические науки вып.2/2025(16))

3. Oeza B. R., Hapsari A. U., Raharjo J., Damisih, Pravitasari R. D., Deni Y., Agustanhakri, Widyastuti, Noerochim L., Suyanti, Arifin K., Somalu M. R. Impact of diverse material precursors on microstructure and ionic conductivity Li 0 . 33 La 0 . 56 TiO 3 solid-state electrolyte properties. J. Alloys Compd., 2024, Vol. 1006, 2176169. 4. Kasikov A. G., Shchelokova E. A., Kunshina G. B., Bocharova I. V., Kuznetsov I. A. Poluchenie karbonata litiya iz spodumenovogo koncentrata Kolmozerskogo mestorozhdeniya i ego ispol'zovanie pri sinteze tverdogo elektrolita [Preparation of lithium carbonate from spodumene concentrate of the Kolmozersky deposit and its use in the synthesis of solid electrolyte]. Razvedka i ohrana nedr [Exploration and protection of mineral resources], 2024, No. 2, pp. 81-88. (In Russ.). 5. Kunshina G. B., Gromov O. G., Kuz’min A. P., Seitenova E. B., Lokshin E. P., and Kalinnikov V. T. Synthesis and Ionic Conductivity of Lithium-conducting Titanium Phosphate Solid Electrolytes. Russ. J. Appl. Chem., 2004, Vol. 77, pp. 915-920. 6. Stenina I., Pyrkova A., Yaroslavtsev A. NASICON-Type Li:+xAlxZryTi 2 -x-y(PO 4)3 Solid Electrolytes: Effect of Al, Zr Co-Doping and Synthesis Method. Batteries, 2023, Vol. 9, 59. 7. Nikolaev A. I., Gerasimova L. G., Petrov V. B., Mayorov V. G. Perovskitovyj koncentrat—perspektivnoe netradicionnoe syr'e dlya proizvodstva titanovoj i redkometall'noj produkcii [Perovskite concentrate is a promising non-traditional raw material for the production of titanium and rare metal products]. Kompleksnoe ispol'zovanie mineral'nogo syr'ya [Integrated use of mineral raw materials], 2015, No. 2 (293), pp. 26-34. (In Russ.). 8. Gerasimova L. G., Nikolaev A. I., Petrov V. B., Bychenya Yu. G. Azotnokislotnoe razlozhenie perovskita v prisutstvii ftorsoderzhashchego reagenta [Nitric acid decomposition of perovskite in the presence of a fluorinated reagent]. Cvetnye metally [Non-ferrous metals], 2017, No. 5, pp. 50-53. (In Russ.). 9. Kunshina G. B., Bocharova I. V. Synthesis of Li 1 . 3 Al 0 . 3 Ti 1 . 7 (PO 4)3 solid electrolyte from oxalate precursor. Russ. J. Inorg. Chem, 2025, Vol. 70, pp. 812-820. 10. Kim C. G., Hong Y. T., Im J. M., Baek K. S., Lim Y. R., Kim H.-J., Park H., Baek S.-W., Kim J. H. Ionic conductivity and microstructural characteristics of NASICON-type solid electrolyte Li 1 . 3 Al 0 . 3 Ti 1 . 7 (PO 4)3 affected by synthesis and manufacturing processes for all solid-state battery. J. Korean Ceram. Soc., 2024, Vol. 61, pp. 1091-1101. 11. Yao Z., Zhu K., Zhang J., Li X., Chen J., Wang J., Yan K., Liu J. Co-Precipitation Synthesis and Electrochemical Properties of NASICON-Type Li 1 . 3 Al 03 Ti 1 . 7 (PO 4)3 Solid Electrolytes. J. Mater. Sci: Mater. Electron., 2021, Vol. 32, pp. 24834-24844. Информация об авторах И. В. Бочарова — младший научный сотрудник; Г. Б. Куншина — кандидат технических наук, ведущий научный сотрудник; Е. С. Щукина — кандидат технических наук, старший научный сотрудник. Information about the authors I. V. Bocharova — Research Assistant; G. B. Kunshina — PhD (Engineering), Leading Researcher; E. S. Shchukina — PhD (Engineering), Senior Researcher. Статья поступила в редакцию 05.06.2025; одобрена после рецензирования 05.06.2025; принята к публикации 19.06.2025. The article was submitted 05.06.2025; approved after reviewing 05.06.2025; accepted for publication 19.06.2025. Труды Кольского научного центра РАН. Серия: Технические науки. 2025. Т. 16, № 2. С. 121-126. Transactions of the Kola Science Centre of RAS. Series: Engineering Sciences. 2025. Vol. 16, No. 2. P. 121-126. 126 © Бочарова И. В., Куншина Г. Б., Щукина Е. С., 2025