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  1. Флюс для кристаллизации эпитаксиальных слоев флюорита и способ получения эпитаксиальных слоев флюорита
    Заявка на патент РФ. Инициировано 13 января 2021 г. Решение о выдаче патента 21.10.2022. RU 2785132 дата отсчета 26.01.2022
  2. Электропроводность фаз на основе сульфата натрия. // Неорг. матер. 2022. Т. 58. № 8. C.836-843. 
    DOI: 10.31857/S0002337X22080115
  3. О полиморфизме сульфата натрия.  // Журн. неорган. химии. 2022. Т. 67. № 7. C. 916-924.
    DOI: 10.31857/S0044457X22070200
  4. Transformation of siderite in the zone of hypergenesis.// Nanosystems: Phys. Chem. Math., 2022, 13 (5), 539–545.
    DOI:10.17586/2220-8054-2022-13-5-539-545
  5. Judd-Ofelt Analysis of High Erbium Content Yttrium-Aluminum and Yttrium-Scandium-Aluminum Garnet Ceramics. Inorganics 2022, 10, 170.
    https://doi.org/10.3390/inorganics10100170
  6. Stable garnets in the Er2O3-Sc2O3-Al2O3 oxide system for optical ceramics application. Ceramics International. 2022. V.48. is.24. p.p.36739-36747.
    doi.org/10.1016/j.ceramint.2022.08.235
  7. Impact of sensitizer Yb and activator Tm on luminescence intensity of β-NaYF4:Yb/Tm Nanoluminophores. Nanosystems:Phys. Chem. Math., 2022, 13 (3), 331-341
    DOI:10.17586/2220-8054-2022-13-3-331-341
  8. "Spectroscopy properties of Dy3+ doped CaF2 single crystals and CaF2-SrF2 solid liquid," 2022 International Conference Laser Optics (ICLO), 2022, pp. 1-1,
    DOI:10.1109/ICLO54117.2022.9840327
  9. SYNTHESIS OF SINGLE-PHASE Sr1-xBaxF2 SOLID SOLUTIONS BY COPRECIPITATION FROM AQUEOUS SOLUTIONS Solid State Sciences. 2022, v.130:106932
    DOI:10.1016/j.solidstatesciences.2022.106932
  10. Influence of the intensity of exciting radiation on the luminescent properties of nanopowders NaYF4:Yb/Tm. Optics and Spectroscopy, 2022, Vol. 130, No. 6, p.655-662.
    DOI:10.21883/EOS.2022.06.54700.38-22
  11. Interaction of Calcium and Strontium Carbonates with KF Solutions Russian Journal of Inorganic Chemistry, 2022, Vol. 67, No. 8, pp 1211–1220
    DOI:10.1134/S0036023622080101
  12. Luminescent diamond composites, Functional Diamond, 2022. 2:1, 53-63
    DOI:10.1080/26941112.2022.2071112
  13. Sodium Sulfate Polymorphism. Russian Journal of Inorganic Chemistry, 2022, Vol. 67, No. 7, pp. 970–977.
    DOI:10.1134/S0036023622070208
  14. Long-wavelength optical properties of the Ca0.33Sr0.33Ba0.33F2 solid solution single crystals. // Optical Materials. 2022. v.127. 112267.
    DOI.10.1016/j.optmat.2022.112267
  15. Thermal Conductivity of Single Crystals of CaF2–BaF2 Solid Solutions. Inorganic Materials, 2022, Vol. 58, No. 4, pp. 396–402
    DOI:10.1134/S0020168522040136
  16. Study of synthesis temperature effect on β-NaGdF4: Yb3+, Er3+ upconversion luminescence efficiency and decay time using maximum entropy method. Methods and Applications in Fluorescence. 2022. V.10. P.024005
    Doi. 10.1088/2050-6120/ac5bdc
  17. Assessment of Cs2HfCl6 crystals applicability as low-temperature scintillating bolometers by their thermodynamic characteristics. Journal of Mater Chem C 2022. 10, 5218 - 5229
    doi. 10.1039/D1TC06166F
  18. Fabrication and characterization of new Er-doped yttrium-scandium-aluminum garnet ceramics. 15-30 January 2022 Chem. Proc. 2022, 9, 18.
    https://doi.org/10.3390/IOCC_2022-12163
  19. Cerium-doped gadolinium-scandium-aluminum garnet powders: synthesis and use in X-ray luminescent diamond composites. Ceramics International. 2022. V.48, p.12962-12970.
    10.1016/j.ceramint.2022.01.169
  20. Sintering and microstructure evolution of Er1.5Y1.5-xScx+yAl5-yO12 garnet ceramics with scandium in dodecahedral and octahedral sites. Journal of the European Ceramic Society.2022.v.42, is.5, p.2464-2477
    10.1016/j.jeurceramsoc.2022.01.008
  21. Synthesis of YSAG:Er ceramics and the study of the scandium impact in the dodecahedral and octahedral garnet sites on the Er3+ energy structure. Journal of Luminescence 241 (2022) 118539
    doi.org/10.1016/j.jlumin.2021.118539
  22. Synthesis of SrF2:Yb:Er ceramic precursor powder by co-precipitation from aqueous solution with different fluorinating media: NaF, KF and NH4F // Dalton Transactions. 51 (2022) 5448
    https://doi.org/10.1039/d2dt00304j
  23. Effect of up-converting luminescent nanoparticles with increased quantum yield incorporated into the fluoropolymer matrix on solanum lycopersicum growth // Agronomy. 12 (2022) 108.
    https://doi.org/10.3390/agronomy12010108
  24. High lignin content cellulose nanofibrils obtained from thermomechanical pulp. / Nanosystems: Phys. Chem. Math., 2022, 13 (6), 698–708.
    DOI:10.17586/2220-8054-2022-13-6-698-708
  25. Age‑related changes in cationic compositions of human cranial base bone apatite measured by X‑ray energy dispersive spectroscopy (EDS) coupled with scanning electron microscope (SEM). BioMetals. 2022, 35, рр. 1077-1094
    https://doi.org/10.1007/s10534-022-00425-1
  26. Synthesis of solid solution Ba1-xLaxF2+x from nitrate melt // Russ. J. Inorg. Chem. 2022. V.67. I. 6. P. 861-867.
    DOI:10.1134/S0036023622060079
  27. Effect of Structural Perfection of Crystalline β-NaYF4:Yb,Er Phosphor Powders on the Efficiency of Their Upconversion Luminescence. Inorganic Materials. 58, 90–96 (2022)
    DOI:10.1134/S0020168522010010
  28. Electrical Conductivity of Sodium Sulfate-Based Phases. Inorganic Materials, 2022, Vol. 58, No. 8, pp. 806–813
    https://doi.org/10.1134/S0020168522080118
  29. Plant photochemistry under glass coated with up-conversion luminescent film. Appl. Sci. 2022, 12, 7480.
    https://doi.org/10.3390/app12157480  
  30. Effect of vacuum sintering conditions on the properties of Y3Al5O12: Ce luminescent ceramics. Modern Electronic Materials 2022; 8(3): 123–130.
    https://doi.org/10.3897/j.moem.8.3.98706
  31. The influence of Medium on Fluorescence Quenching of Colloidal Solutions of the Nd3+:LaF3 Nanoparticles Prepared with HTMW Treatment. Nanomaterials. 2022, 12, 3749.
    10.3390/nano12213749
  32. Synthesis of Y3Al5O12:Ce powders for X-ray luminescent diamond composites. Inorganics, 2022, 10, 240.
    10.3390/inorganics10120240