Crystal structures and P-T phase diagrams of SrC 2 O 5 and BaC 2 O 5 .

In this study, we present the results of a search for new stable structures of SrC 2 O 5 and BaC 2 O 5 in the pressure range of 0-100 GPa based on the density functional theory and crystal structure prediction approaches. We have shown that the recently synthesized pyrocarbonate structure SrC 2 O 5 - P 2 1 / c is thermodynamically stable for both SrC 2 O 5 and BaC 2 O 5 . Thus, SrC 2 O 5 - P 2 1 / c is stable relative to decomposition reaction above 10 GPa, while the lower-pressure stability limit for BaC 2 O 5 - P 2 1 / c is 5 GPa, which is the lowest value for the formation of pyrocarbonates. For SrC 2 O 5 , the following polymorphic transitions were found with increasing pressure: P 2 1 / c → F d d 2 at 40 GPa and 1000 K, F d d 2 → C 2 at 90 GPa and 1000 K. SrC 2 O 5 - F d d 2 and SrC 2 O 5 - C 2 are characterized by the framework and layered structures of [CO 4 ] 4 - tetrahedra, respectively. For BaC 2 O 5 , with increasing pressure, decomposition of BaC 2 O 5 - P 2 1 / c into BaCO 3 and CO 2 is observed at 34 GPa without any polymorphic transitions. © 2023 Wiley Periodicals LLC.

Citation

Dinara N Sagatova, Pavel N Gavryushkin, Nursultan E Sagatov, Maksim V Banaev. Crystal structures and P-T phase diagrams of SrC 2 O 5 and BaC 2 O 5 . Journal of computational chemistry. 2023 Dec 15;44(32):2453-2460

PMID: 37610074

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