Prediction of structure of CON and NaN crystals under high pressure.
ORAL
Abstract
Structure of CON and NaN crystals under pressure is predicted using evolutionary algorithm and
density functional theory (DFT). The found structures complement results of the previous
structure searches. The structure of CON2 crystal at 40 GPa is made of eight-membered rings of
singly bonded CON2 molecules in a three-dimensional framework structure in the space group
of P43. It has high mass density (3.98 g/cc) comparable with that of cubic gauche nitrogen and
high content of nitrogen atoms forming a spiral perpendicular to the eight member rings. The
structure is in a good agreement with X-ray diffraction experiments. Metallic compounds
Na3(N2)4 at ~28 GPa, NaN2 at 4 GPa and NaN5 at 50 GPa are found to be thermodynamically
stable according to the convex hull calculations. Calculated phonon dispersions indicate
dynamical stability of the systems, calculated Raman active frequencies of the compounds are
compared with experiments.
density functional theory (DFT). The found structures complement results of the previous
structure searches. The structure of CON2 crystal at 40 GPa is made of eight-membered rings of
singly bonded CON2 molecules in a three-dimensional framework structure in the space group
of P43. It has high mass density (3.98 g/cc) comparable with that of cubic gauche nitrogen and
high content of nitrogen atoms forming a spiral perpendicular to the eight member rings. The
structure is in a good agreement with X-ray diffraction experiments. Metallic compounds
Na3(N2)4 at ~28 GPa, NaN2 at 4 GPa and NaN5 at 50 GPa are found to be thermodynamically
stable according to the convex hull calculations. Calculated phonon dispersions indicate
dynamical stability of the systems, calculated Raman active frequencies of the compounds are
compared with experiments.
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Presenters
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Iskander G Batyrev
DEVCOM Army Research Lab Aberdeen
Authors
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Iskander G Batyrev
DEVCOM Army Research Lab Aberdeen