Phase relations, and mechanical and electronic properties of nickel borides, carbides, and nitrides from ab initio calculations

Nursultan E Sagatov; Aisulu U Abuova; Dinara N Sagatova; Pavel N Gavryushkin; Fatima U Abuova; Konstantin D Litasov

doi:10.1039/d1ra06160g

Phase relations, and mechanical and electronic properties of nickel borides, carbides, and nitrides from ab initio calculations

RSC Adv. 2021 Oct 15;11(53):33781-33787. doi: 10.1039/d1ra06160g. eCollection 2021 Oct 8.

Authors

Nursultan E Sagatov^{1

2}, Aisulu U Abuova², Dinara N Sagatova^{1

3}, Pavel N Gavryushkin^{1

3}, Fatima U Abuova², Konstantin D Litasov⁴

Affiliations

¹ Sobolev Institute of Geology and Mineralogy, Siberian Branch of the Russian Academy of Sciences Novosibirsk 630090 Russian Federation sagatinho23@gmail.com.
² L. N. Gumilyov Eurasian National University Nur-Sultan 010008 Republic of Kazakhstan aisulu-us1980@yandex.ru.
³ Novosibirsk State University Novosibirsk 630090 Russian Federation.
⁴ Vereshchagin Institute for High Pressure Physics, Russian Academy of Sciences Troitsk Moscow 108840 Russian Federation.

Abstract

Based on density functional theory and the crystal structure prediction methods, USPEX and AIRSS, stable intermediate compounds in the Ni-X (X = B, C, and N) systems and their structures were determined in the pressure range of 0-400 GPa. It was found that in the Ni-B system, in addition to the known ambient-pressure phases, the new nickel boride, Ni₂B₃-Immm, stabilizes above 202 GPa. In the Ni-C system, Ni₃C-Pnma was shown to be the only stable nickel carbide which stabilizes above 53 GPa. In the Ni-N system, four new phases, Ni₆N-R3̄, Ni₃N-Cmcm, Ni₇N₃-Pbca, and NiN₂-Pa3̄, were predicted. For the new predicted phases enriched by a light-element, Ni₂B₃-Immm and NiN₂-Pa3̄, mechanical and electronic properties have been studied.