Standard

Hydroxylherderite (Ca2Be2P2O8(OH)2) stability under extreme conditions (up to 750°C/100 GPa). / Gorelova, Liudmila ; Vereshchagin, Oleg ; Andrey, Aslandukov; Aslandukovа, Alena; Spiridonova, Dar'ya ; Krzhizhanovskaya, Maria ; Kasatkin, Anatoly ; Dubrovinsky, Leonid .

в: Journal of the American Ceramic Society, 03.12.2022.

Результаты исследований: Научные публикации в периодических изданияхстатьяРецензирование

Harvard

Gorelova, L, Vereshchagin, O, Andrey, A, Aslandukovа, A, Spiridonova, D, Krzhizhanovskaya, M, Kasatkin, A & Dubrovinsky, L 2022, 'Hydroxylherderite (Ca2Be2P2O8(OH)2) stability under extreme conditions (up to 750°C/100 GPa)', Journal of the American Ceramic Society.

APA

Gorelova, L., Vereshchagin, O., Andrey, A., Aslandukovа, A., Spiridonova, D., Krzhizhanovskaya, M., Kasatkin, A., & Dubrovinsky, L. (2022). Hydroxylherderite (Ca2Be2P2O8(OH)2) stability under extreme conditions (up to 750°C/100 GPa). Journal of the American Ceramic Society.

Vancouver

Gorelova L, Vereshchagin O, Andrey A, Aslandukovа A, Spiridonova D, Krzhizhanovskaya M и пр. Hydroxylherderite (Ca2Be2P2O8(OH)2) stability under extreme conditions (up to 750°C/100 GPa). Journal of the American Ceramic Society. 2022 Дек. 3.

Author

Gorelova, Liudmila ; Vereshchagin, Oleg ; Andrey, Aslandukov ; Aslandukovа, Alena ; Spiridonova, Dar'ya ; Krzhizhanovskaya, Maria ; Kasatkin, Anatoly ; Dubrovinsky, Leonid . / Hydroxylherderite (Ca2Be2P2O8(OH)2) stability under extreme conditions (up to 750°C/100 GPa). в: Journal of the American Ceramic Society. 2022.

BibTeX

@article{86c4e0a6010743d4b5ad60f528b73083,
title = "Hydroxylherderite (Ca2Be2P2O8(OH)2) stability under extreme conditions (up to 750°C/100 GPa)",
abstract = "Hydroxylherderite, Ca2Be2P2O8(OH)2, is among the most common beryllophosphates in nature and could play a substantial role in Be geochemical cycle. Hydroxylherderite P–T stability and crystal structure behavior were studied under extreme conditions (up to 750°C/100 GPa) using in situ single-crystal and powder X-ray diffraction and Raman spectroscopy. The mineral demonstrated high stability under high-pressure conditions (up to ∼100 GPa) without any phase transitions. Under high-temperature conditions, it was stable up to about 700°C, when it decomposed with the formation of fluorapatite Ca5(PO4)3F and hurlbutite CaBe2P2O8. The beryllophosphate member of the gadolinite supergroup is the most stable mineral (material) under high-pressure conditions, compared to aluminum-, boro- and beryllosilicates.",
keywords = "crystal structure, gadolinite, herderite, High-pressure, high temperature, hydroxylherderite",
author = "Liudmila Gorelova and Oleg Vereshchagin and Aslandukov Andrey and Alena Aslandukovа and Dar'ya Spiridonova and Maria Krzhizhanovskaya and Anatoly Kasatkin and Leonid Dubrovinsky",
year = "2022",
month = dec,
day = "3",
language = "English",
journal = "Journal of the American Ceramic Society",
issn = "0002-7820",
publisher = "Wiley-Blackwell",

}

RIS

TY - JOUR

T1 - Hydroxylherderite (Ca2Be2P2O8(OH)2) stability under extreme conditions (up to 750°C/100 GPa)

AU - Gorelova, Liudmila

AU - Vereshchagin, Oleg

AU - Andrey, Aslandukov

AU - Aslandukovа, Alena

AU - Spiridonova, Dar'ya

AU - Krzhizhanovskaya, Maria

AU - Kasatkin, Anatoly

AU - Dubrovinsky, Leonid

PY - 2022/12/3

Y1 - 2022/12/3

N2 - Hydroxylherderite, Ca2Be2P2O8(OH)2, is among the most common beryllophosphates in nature and could play a substantial role in Be geochemical cycle. Hydroxylherderite P–T stability and crystal structure behavior were studied under extreme conditions (up to 750°C/100 GPa) using in situ single-crystal and powder X-ray diffraction and Raman spectroscopy. The mineral demonstrated high stability under high-pressure conditions (up to ∼100 GPa) without any phase transitions. Under high-temperature conditions, it was stable up to about 700°C, when it decomposed with the formation of fluorapatite Ca5(PO4)3F and hurlbutite CaBe2P2O8. The beryllophosphate member of the gadolinite supergroup is the most stable mineral (material) under high-pressure conditions, compared to aluminum-, boro- and beryllosilicates.

AB - Hydroxylherderite, Ca2Be2P2O8(OH)2, is among the most common beryllophosphates in nature and could play a substantial role in Be geochemical cycle. Hydroxylherderite P–T stability and crystal structure behavior were studied under extreme conditions (up to 750°C/100 GPa) using in situ single-crystal and powder X-ray diffraction and Raman spectroscopy. The mineral demonstrated high stability under high-pressure conditions (up to ∼100 GPa) without any phase transitions. Under high-temperature conditions, it was stable up to about 700°C, when it decomposed with the formation of fluorapatite Ca5(PO4)3F and hurlbutite CaBe2P2O8. The beryllophosphate member of the gadolinite supergroup is the most stable mineral (material) under high-pressure conditions, compared to aluminum-, boro- and beryllosilicates.

KW - crystal structure

KW - gadolinite

KW - herderite

KW - High-pressure

KW - high temperature

KW - hydroxylherderite

UR - https://ceramics.onlinelibrary.wiley.com/doi/abs/10.1111/jace.18923

M3 - Article

JO - Journal of the American Ceramic Society

JF - Journal of the American Ceramic Society

SN - 0002-7820

ER -

ID: 101481789