High-pressure BaCN\(_2\) phases explored by genetic algorithm

• Published in: arXiv.org
• Main Authors: Song, Peng, Kawaguchi, Mari, Masubuchi, Yuji, Oqmhula, Kenji, Nakano, Kousuke, Maezono, Ryo, Hongo, Kenta
• Format: Paper
• Language: English
• Published: Ithaca Cornell University Library, arXiv.org 13.07.2022
• Subjects: Chemical bonds; Covalent bonds; Crystal structure; Electronic structure; Genetic algorithms; High pressure; Polymerization; Searching
• ISSN: 2331-8422
• DOI: 10.48550/arxiv.2207.06181

Polymers containing nitrogen have attracted much attention in connection with their application to high energy density materials (HEDMs), in which energy is inherent in the triple bond. It is an interesting question whether such polymerized phases appear in the high-pressure phase of metal carbodiimide MCN\(_2\), of which synthesis have been reported in recent years, but few studies have investigated the crystal structure at high pressure. We have adopted a structure search based on the genetic algorithm coupled with ab initio electronic structure calculations to investigate possible crystal structures that may appear in the high-pressure phase of BaCN\(_2\). The structure search successfully reproduced the previously reported crystal structures in the lower pressure range. With confirmed reliability of its predictive ability, the genetic search further predicts a polymerized phase with Ima2 appearing at higher pressure above 42 GPa. The polymerized phase takes the structure of a linear network of CN\(_3\) planar triangular units. It is understood that the anion site units CN\(_2\), which are close to each other under high pressure, form covalent bonds directly with each other and stabilize the phase.