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• W4386001191 abstract "The transition from structures with classical [CO3] triangles to structures with [CO4] tetrahedra, corresponding to the transition from sp2 to sp3 hybridization of carbon atoms, is quite well established for alkaline earth carbonates CaCO3 and MgCO3. Here, using a crystal structure prediction technique, we show that alkali carbonates Na2CO3 and K2CO3 follow the same trend. Both compounds form isostructural sp3-hybridized phases, Na2CO3–C2/m and K2CO3–C2/m, which became thermodynamically stable at pressures above 125 and 150 GPa, respectively. The automated topological search through ICSD has shown that the found C2/m structures, as well as sp3-structures of CaCO3 and MgCO3 do not have topological analogs among silicates and phosphates. Transitions of Na2CO3 and K2CO3 to C2/m structures are realized without sufficient perturbation of the initial Na2CO3–P21/m and K2CO3–P1̅ structures and require relatively small atomic displacements of carbon and oxygen atoms. These transitions are realized through simple energy optimization. This indicates the absence or low height of the energy barrier. In the wide interval of pressures before the transition to the sp3 structures, carbon atoms of [CO3] triangles are gradually displaced from the plane defined by three oxygen atoms due to the interaction with the fourth oxygen atom. In the case of Na2CO3, the dihedral angle C–O–O–O describing the degree of this displacement increases from 5 to 12°, when the pressure increases from 60 to 127 GPa. At pressures above 130 GPa, the angle abruptly increases to the value of 31°, which corresponds to the formation of the sp3-hybridized phase Na2CO3–C2/m. Based on the examples of alkali and alkaline earth carbonates, we show that the transition from a sp2-hybridized [CO3] triangle to a sp3-hybridized [CO4] tetrahedron is realized when the fourth oxygen atom approaches the carbon atom at a distance less than 2.0 Å, which is usually realized at pressures of around 100 GPa. The stable structures with sp3-hybridized carbon atoms have not been found for Li2CO3 in the considered pressure range up to 200 GPa, and we show that the P63/mcm structure of this compound is stable in sp2 form up to a pressure of 700 GPa or even higher. This indicates that not all the structures of carbonates adopt sp3 form even at extreme pressures." @default.
• W4386001191 created "2023-08-20" @default.
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• W4386001191 date "2023-08-19" @default.
• W4386001191 modified "2023-10-07" @default.
• W4386001191 title "First Finding of High-Pressure Modifications of Na₂CO₃ and K₂CO₃ with sp³-Hybridized Carbon Atoms" @default.
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• W4386001191 doi "https://doi.org/10.1021/acs.cgd.3c00507" @default.
• W4386001191 hasPublicationYear "2023" @default.
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