Synthesis and Characterization of Ceramics BaxMg(2 – x)F4 Activated by Tungsten

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Abstract

The possibility of radiation synthesis of luminescent ceramics from a mixture of Ba and Mg fluorides and WO3 oxide is shown for the first time. Synthesis is implemented in a powerful electron beam with an energy of 1.4 MeV by direct exposure of the charge to radiation. It is shown that the characteristic band is observed in the photoluminescence spectrum of the synthesized materials due to the introduction of tungsten, which indicates the incorporation of tungsten into the lattice during radiation synthesis without the use of additional substances in the charge.

About the authors

V. M. Lisitsyn

National Research Tomsk Polytechnic University

Email: lisitsyn@tpu.ru
Tomsk, Russia

D. A. Musakhanov

Gumilev Eurasian National University

Email: lisitsyn@tpu.ru
010008, Nur-Sultan, Republic of Kazakhstan

T. G. Korzhneva

National Research Tomsk Polytechnic University

Email: lisitsyn@tpu.ru
Tomsk, Russia

A. V. Strelkova

Gumilev Eurasian National University

Email: lisitsyn@tpu.ru
010008, Nur-Sultan, Republic of Kazakhstan

L. A. Lisitsyna

Tomsk State University of Architecture and Building

Email: lisitsyn@tpu.ru
634003, Tomsk, Russia

M. G. Golkovsky

Gumilev Eurasian National University

Email: lisitsyn@tpu.ru
010008, Nur-Sultan, Republic of Kazakhstan

A. M. Zhunusbekov

Gumilev Eurasian National University

Email: lisitsyn@tpu.ru
010008, Nur-Sultan, Republic of Kazakhstan

Zh. T. Karipbaev

Gumilev Eurasian National University

Email: lisitsyn@tpu.ru
010008, Nur-Sultan, Republic of Kazakhstan

A. L. Kozlovsky

Gumilev Eurasian National University

Author for correspondence.
Email: lisitsyn@tpu.ru
010008, Nur-Sultan, Republic of Kazakhstan

References

  1. Атрощенко Л.В., Бурачас С.Ф., Гальчинецкий Л.П., Гринев Б.В., Рыжиков В.Д., Старжинский Н.Г. Кристаллы, сцинтилляторы и детекторы ионизирующих излучений на их основе. Киев: Наук. думка, 1998. 310 с.
  2. Kore B.P., Kumar A., Erasmus L., Kroon R.E., Terblans J.J., Dhoble S.J., Swart H.C. Energy Transfer Mechanisms and Optical Thermometry of BaMgF4: Yb3+, Er3+ Phosphor // Inorg. Chem. 2018. V. 57. № 1. P. 288−299.
  3. Lisitsyna L.A., Lisitsyn V.M. Composition nanodefects in doped lithium fluoride crystals // Phys. Solid State. 2013. V. 55. № 11. P. 2297–2303.
  4. Lisitsyn V.M., Golkovskii M.G., Lisitsyna L.A., Dauletbekova A.K., Musakhanov D.A., Vaganov V.A., Tulegenova A.T., Karipbayev Zh.T. MgF2 – Based Luminescing Ceramics // Russian Physics J. 2019. V. 61. № 10. P. 1908–1913.
  5. Renfro G.M., Halliburton L.E., Sibley W.A., Belt R.F. Radiation effects in LiYF4 // J. Phys. C: Solid St. Phys. 1980. V. 13. № 10. P. 1941–1950.
  6. Morato S.P., Masedo T.C.A. Fand photochromic centers in LiYF4:Nd crystals // Rad.eff. 1983. V. 72 № 2. P. 229–235.
  7. Wang M., Mi C.C., Wang W.X., Liu C.H., Wu Y.F., Xu Z.R., Mao C.B., Xu S.K. Immunolabeling and NIR-excited fluorescent imaging of HeLa cells by using NaYF(4) : Yb,Er upconversion nanoparticles // ACS Nano. 2009. V. 3(6). P. 1580–1586.
  8. Li Z.Q., Zhang Y., Jiang S. Synthesis of colour tunable lanthanide-ion doped NaYF4 upconversion nanoparticles by controlling temperature // Adv. Mater. 2008. V. 20. P. 4765.
  9. Yagi K., Mori K., Odawara O., Wada H. Preparation of spherical upconversion nanoparticles NaYF4:Yb, Er by laser ablation in liquid and optical properties // J. Laser Appl. 2020. V. 32. 022062. https://doi.org/10.2351/7.0000089
  10. Lisitsyn V.M., Golkovskii M.G., Lisitsyna L.A., Dauletbekova A.K., Musakhanov D.A., Vaganov V.A., Tulegenova A.T., Karipbayev Zh.T. MgF2–Based Luminescing Ceramics // Russian Physics J. 2019. V. 61. № 10. P. 1908–1913.
  11. Gingl F. BaMgF4 and Ba2Mg3F10: new examples for structural relationships between hydrides and fluorides // Z. Anorg. Allg. Chem. 1997. V. 623. P. 705–709.

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Copyright (c) 2023 В.М. Лисицын, Д.А. Мусаханов, Т.Г. Коржнева, А.В. Стрелкова, Л.А. Лисицына, М.Г. Голковский, А.М. Жунусбеков, Ж.Т. Карипбаев, А.Л. Козловский