Carbon dioxide (CO2) has been recently reported to possess an amorphous form, named 'carbonia,' structurally similar to other group-IV oxide glasses. By combining ab initio constant pressure molecular dynamics, density-functional perturbation theory, and experimental IR spectra, we show that carbonia, and possibly also phase VI, is not SiO2-like, and that instead it is partially tetrahedral containing also a sizable amount of carbon in threefold coordination, but no sixfold octahedral coordination. Enthalpic considerations suggest that carbonia is a metastable intermediate state of the transformation of molecular CO2 into fully tetrahedral phases.
Mixed threefold and fourfold carbon coordination in compressed CO2
Santoro M;Gorelli F;
2008
Abstract
Carbon dioxide (CO2) has been recently reported to possess an amorphous form, named 'carbonia,' structurally similar to other group-IV oxide glasses. By combining ab initio constant pressure molecular dynamics, density-functional perturbation theory, and experimental IR spectra, we show that carbonia, and possibly also phase VI, is not SiO2-like, and that instead it is partially tetrahedral containing also a sizable amount of carbon in threefold coordination, but no sixfold octahedral coordination. Enthalpic considerations suggest that carbonia is a metastable intermediate state of the transformation of molecular CO2 into fully tetrahedral phases.| File | Dimensione | Formato | |
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Descrizione: Mixed threefold and fourfold carbon coordination in compressed CO2
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