Труды КНЦ вып. 5(ХИМИЯ И МАТЕРИАЛОВЕДЕНИЕ) вып. 2/2021(12)

o f lithium-aluminum titanophosphate]. Zhurnalprikladnoj himii [Journal o f Applied Chemistry], 2017, Vоl. 90, No. 3, рр. 312-317. (In Russ.). 4. Perez-Estebanez M., Isasi-Marin J., Rivera-Calzada A., Leon C., Nygren M. Spark plasma versus conventional sintering in the electrical properties of NASICON-type materials. J. Alloys and Compounds, 2015, Vоl. 651, р р .636-642. 5. Hallopeaua L., Bregiroux D., Rousse G., Portehault D., Stevens P., Toussaint G., Laberty-Robert C. Microwave-assisted reactive sintering and lithium ion conductivity o f Li 1 , 3 Al 0 , 3 Ti 1 , 7 (PO 4)3 solid electrolyte. J. Power Sources, 2018, Vоl. 378, рр. 48-52. 6. Lee S-D., Jung K-N., Kim H., Shin H-S., Song S-W., Park M-S., and Lee J-W. Composite Electrolyte for All­ Solid-State Lithium Batteries: Low-Temperature Fabrication and Conductivity Enhancement. ChemSusChem., 2017, W . 10, рр. 1-8. DOI:10.1002/cssc.201700104. 7. Kwatek K., SlubowskaW., Trebosc J., Lafon O., Nowinski J. L. Structural and electrical properties o f ceramic Li-ion conductors based on Li 1 , 3 Al 0 , 3 Tiu(PO 4 ) 3 -LiF. J. European Ceram. Soc., 2020, ^ l . 40, рр. 85-93. 8. Kotobuki M, Koishi M. Preparation of Li 1 , 5 Ab, 5 Ti 1 , 5 (PO 4)3 solid electrolyte via a sol-gel route using various Al sources. Ceram. Int., 2013, Vоl. 39, рр. 4645-4649. 9. Kunshina G. B., Bocharova I. V., Gromov O. G., Kalinnikov V. T. Litijprovodyashchie tverdye elektrolity na osnove slozhnyh fosfatov i oksidov: sintez i svojstva [Lithium-conducting solid electrolytes based on complex phosphates and oxides: synthesis and properties]. Trudy Kol'skogo nauchnogo centra RAN [Proceedings of the Kola Scientific Center o f the Russian Academy o f Sciences], 2015, No. 5 (31), рр. 384­ 388. (In Russ.). 10. Lu X., Wang R., Zhang F., Li J. The influence o f phosphorous source on the properties of NASICON lithium ion conductor Li 1 , 3 Al 0 , 3 Tiu(PO 4 ) 3 . Solid State Ionics, 2020, Vоl. 354, 115417. 11. Ren Y., Deng H., Zhao H., Zhou Z., Wei Z. A simple and effective method to prepare dense Li 1 , 3 Al 0 , 3 Tiu(PO 4)3 solid — state electrolyte for lithium-oxygen batteries. Ionics, 2020, ^ l . 26, рр. 6049-6056. 12. Yen P-Y., Lee M-L., Gregory D. H., Liu W-R. Optimization o f sintering process on Li 1 +xAlxTi 2 -x(PO 4)3 solid electrolytes for all-solid-state lithium-ion batteries. Ceram. Int., 2020, Vоl. 46, рр. 20529-20536. 13. Kotobuki M., Lei H., Chen Y., Song S., Xu C., Hu N., Molenda J., and Lu L. Preparation ofthin solid electrolyte by hot-pressing and diamond wire slicing. RSC Adv., 2019, Vоl. 9, рр. 11670-11675. Сведения об авторах И. В. Бочарова — младший научный сотрудник; Г. Б. Куншина — кандидат технических наук, старший научный сотрудник. Information about the authors I. V. Bocharova — Junior Researcher; G. B. Kunshina — PhD (Engineering), Senior Researcher. Статья поступила в редакцию 25.03.2021; одобрена после рецензирования 01.04.2021; принята к публикации 05.04.2021. The article was submitted 25.03.2021; approved after reviewing 01.04.2021; accepted for publication 05.04.2021. 35