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Crystal formation of Cu-Mn-containing oxides and oxyborates in bismuth-boron fluxes diluted by MoO3 and Na2CO3
Автор | Evgeniya, Moshkina | |
Автор | Yurii, Seryotkin | |
Автор | Asya, Bovina | |
Автор | Maxim, Molokeev | |
Автор | Evgeniy, Eremin | |
Автор | Nadejda, Belskaya | |
Автор | Leonard, Bezmaternykh | |
Дата внесения | 2020-01-20T07:16:23Z | |
Дата, когда ресурс стал доступен | 2020-01-20T07:16:23Z | |
Дата публикации | 2018-12 | |
Библиографическое описание | Evgeniya, Moshkina. Crystal formation of Cu-Mn-containing oxides and oxyborates in bismuth-boron fluxes diluted by MoO3 and Na2CO3 [Текст] / Moshkina Evgeniya, Seryotkin Yurii, Bovina Asya, Molokeev Maxim, Eremin Evgeniy, Belskaya Nadejda, Bezmaternykh Leonard // Journal of Crystal Growth. — 2018. — Т. 503. — С. 1-8 | |
ISSN | 00220248 | |
URI (для ссылок/цитирований) | https://www.sciencedirect.com/science/article/pii/S0022024818304305 | |
URI (для ссылок/цитирований) | https://elib.sfu-kras.ru/handle/2311/128866 | |
Аннотация | The high-temperature crystallizing phases of fluxes (molten solutions) based on Bi2O3:MoO3=1:3 and diluted by Na2CO3, B2O3 (under varying of Na2CO3:B2O3) and CuO and Mn2O3 (0≤Mn2O3:CuO≤5) are studied. The conditions of the stable crystallization of Mn2+1-xCuxMoO4, Mn23+O3, Mn2+Mn23+O4, Mn2+1-xCuxMn3+BO4 and Mn2+2-xCuxMn3+BO5 have been found. The influence of MoO3 and Na2CO3 to the crystallization processes of Mn2+- and Mn3+-containing Mn2+1-xCuxMoO4 and Mn2+Mn23+O4 and Mn23+O3 are clarified. The occurrence of the chemical bonds of these types at the crystallization of Mn-heterovalent Mn2+1-xCuxMn3+BO4 and Mn2+2-xCuxMn3+BO5 oxyborates is studied. Single crystal growth techniques of these oxyborates are suggested. The results of structural and magnetic characterization of some discussed compounds are presented. | |
Название | Crystal formation of Cu-Mn-containing oxides and oxyborates in bismuth-boron fluxes diluted by MoO3 and Na2CO3 | |
Тип | Journal Article | |
Тип | Journal Article Preprint | |
Страницы | 1-8 | |
ГРНТИ | 29.19 | |
Дата обновления | 2020-01-20T07:16:23Z | |
DOI | 10.1016/j.jcrysgro.2018.09.011 | |
Институт | Институт инженерной физики и радиоэлектроники | |
Подразделение | Базовая кафедра физики твердого тела и нанотехнологий | |
Журнал | Journal of Crystal Growth | |
Квартиль журнала в Scopus | Q2 | |
Квартиль журнала в Web of Science | Q3 |