The chemical resistance of glasses in the PbCl2–PbO–B2O3–NdF3 system has been studied. Oxochloride lead-borate glasses have demonstrated good water resistance and alkali resistance, while low acid resistance. Volumetric glass samples were exhibited in the tropical climate of Southeast Asia during the year. The spectral-luminescent characteristics of neodymium ions in these matrices maintain good stability in a tropical climate.
Dmitry A. Butenkov – Postgraduate Student of the Department of Chemistry and Technology of Crystals, Mendeleev University of Chemical Technology of Russia (MUCTR), Moscow, Russia
Dilfuza E. Berdieva – Student of the Department of Chemistry and Technology of Crystals, Mendeleev University of Chemical Technology of Russia (MUCTR), Moscow, Russia
Anna V. Bakaeva – Student of the Department of Chemistry and Technology of Crystals, Mendeleev University of Chemical Technology of Russia (MUCTR), Moscow, Russia
Kristina I. Runina – Researcher of the Laboratory of Functional Materials for Photonics and Electronics of the Department of Chemistry and Technology of Crystals, Mendeleev University of Chemical Technology of Russia (MUCTR), Moscow, Russia
Roman I. Avetisov – Docent of the Department of Chemistry and Technology of Crystals, Mendeleev University of Chemical Technology of Russia (MUCTR), Moscow, Russia
Olga B. Petrova – Dr, Professor, Professor of the Department of Chemistry and Technology of Crystals, Mendeleev University of Chemical Technology of Russia (MUCTR), Moscow, Russia
Do Dinh Trung – PhD, Researcher at the Vietnamese-Russian Tropical Center, Institute of Tropical Resistance, Joint Russian-Vietnamese Tropical Research Center, Hanoi, Vietnam
Ta Thu Trang – PhD, Researcher at the Vietnamese-Russian Tropical Center, Institute of Tropical Resistance, Joint Russian-Vietnamese Tropical Research Center, Hanoi, Vietnam
1. Waynant R. W., Ilev I. K., Gannot I. Midinfrared laser applications in medicine and biology // Philosophical Transactions of The Royal Society B: Biological Sciences. 2001. V. 359, No. 1780. P. 635 – 644 DOI: 10.1109/50.317516
2. Colaizzi J., Matthewson M. J. Mechanical durability of ZBLAN and aluminum fluoride-based optical fiber // Journal of Lightwave Technology. 1994. V. 12, No. 8. P. 1317 – 1324. DOI: 10.1016/j.jnoncrysol.2010.09
3. Niu Y.-F., Guin J.-P., Abdelouas A., et al. Durability of an As2S3 chalcogenide glass: Optical properties and dissolution kinetics // Journal of Non-Crystalline Solids. 2011. V. 357, No. 3. P. 932 – 938. DOI: 10.1016/j.jnoncrysol.2010.09
4. Sekhar K. C., Hameed A., Sathe V. G, et al. Physical, optical and structural studies of copper-doped lead oxychloro borate glasses // Bulletin of Materials Science. 2018. V. 41, No. 79. DOI: 10.1007/s12034-018-1604-4
5. Pisarski W. A., Pisarska J., Lisiecki R., et al. Luminescence spectroscopy of rare earth-doped oxychloride lead borate glasses // Journal of Luminescence. 2011. V. 131, No. 4. P. 649 – 652. DOI: 10.1016/j.jlumin.2010.11.009
6. Butenkov D., Bakaeva A., Runina K., et al. New glasses in the PbCl2–PbO–B2O3 system: structure and optical properties // Ceramics. 2023. V. 6, No. 3. P. 1348 – 1364. DOI: 10.3390/ceramics6030083
7. ГОСТ 10134.1–2017. Межгосударственный стандарт. Стекло и изделия из него. Методы определения химической стойкости. Определение водостойкости при 98 °С. Glass and glass products. Methods for determination of chemical resistance. Determination of hydrolytic resistance at 98 °C. Дата введения 2019-03-01. М.: ФГУП «Стандартинформ», 2018. 12 с.
8. ГОСТ 10134.2–2017. Межгосударственный стандарт. Стекло и изделия из него. Методы определения химической стойкости. Определение кислотостойкости. Glass and glass products. Methods for determination of chemical resistance. Determination of acid resistance. Дата введения в действие 01.03.2019. М.: ФГУП «Стандартинформ», 2018. 12 с.
9. ГОСТ 10134.3–2017. Межгосударственный стандарт. Стекло и изделия из него. Методы определения химической стойкости. Определение щелочестойкости. Glass and glass products. Methods for determination of chemical resistance. Determination of alkali resistance. Дата введения в действие 01.03.2019. М.: ФГУП «Стандартинформ», 2018. 12 с.
10. Рунина К. Исследование стабильности люминесцентных характеристик люминофоров различной природы в климатических условиях Юго-Восточной Азии // Стекло и керамика. 2023. Т. 96, № 1. С. 33 – 40. DOI: 10.14489/glc.2023.01.pp.033-040 [Runina K. I., Avetisov R. I., Petrova O. B. и др. Investigation of the Stability of the Luminescent Characteristics of Phosphors of Different Nature Under the Climatic Conditions of South-East Asia // Glass Ceram. 2023. V. 80, No. 1–2. P. 25 – 30. DOI: 10.1007/s10717-023-00550-4]
11. Russell L. R. J., Morse G., Morse K. W. Main group elements / Editor(s): Robert A. Meyers. Encyclopedia of Physical Science and Technology (3nd edition). Academic Press, 2003. Р. 31–30. ISBN 9780122274107.
12. Кручинин Д. Ю., Фарафонтова Е. П. Физическая химия стеклообразного состояния: учебное пособие / М-во науки и высшего образования РФ. Екатеринбург: Изд-во Урал. ун-та, 2021. 108 с.
13. Мазеев Л. Я. Боратные стекла. Минск: Изд-во Академии наук БССР, 1958. 172 с.
14. Киприянов А. А., Карпухина Н. Г. Оксигалогенидные силикатные стекла // Физика и химия стекла. 2006. Т. 32, № 1. С. 3 – 40. [Kiprianov A. A., Karpukhina N. G. Oxyhalide silicate glasses // Glass Physics and Chemistry. 2006. V. 32. P. 1 – 27. DOI: 10.1134/S1087659606010019]
15. Petrova O. B., Velichkina D. A., Zykova M. P., et al. Nd/La Nd/Lu-co-doped transparent lead fluoroborate glass-ceramics // Journal of Non-Crystalline Solids. 2020. V. 531. P. 119858 – 119864. DOI: 10.1016/j.jnoncrysol.2019.119858
16. Петрова О. Б., Попов А. В., Шукшин В. Е., Воронько Ю. К. Активированные ионами Nd свинцовоборатные оксифторидные стекла и прозрачные стеклокристаллические материалы на их основе // Оптический журнал. 2011. Т. 78, № 10. С. 30 – 35. [Petrova O. B., Popov A. V., Shukshin V. E., Voron'ko Yu. K. Lead borate oxyfluoride glasses doped with Nd3+ ions and transparent glass-crystal materials based on them // Journal of Optical Technology. 2011. V. 78, No. 10. Р. 659 – 663.]
17. Бутенков Д. А., Сластухина А. М., Рунина К. И. и др. Синтез и люминесцентные свойства оксохлоридных свинцовосиликатных стекол, активированных неодимом // Российский химический журнал (Ж. Рос. хим. об-ва). 2022. Т. LXVI, № 3. С. 6 – 12. DOI: 10.6060/rcj.2022663.2 [Butenkov D. A., Slastuhina A. M., Runina K. I., et al. Synthesis and luminescence properties of oxochloride leadsilicate glasses activated by neodymium // Russian Journal of General Chemistry. 2023. V. 93, No. 3. P. 680 – 685. DOI: 10.1134/S1070363223030222]
18. Munisudhakar B., Nageswara C. R., Reddi B. M., et al. Luminescence characteristics of Nd3+ doped bismuth borate glasses for photonic applications // Materials Today: Proceedings. 2020. V. 26. Part 1. P. 5 – 10. DOI: 10.1016/j.matpr.2019.05.349
The article can be purchased
electronic!
PDF format
500
DOI: 10.14489/glc.2024.02.pp.003-010
Article type:
Research Article
Make a request
