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Ferroelectrics Volume 566, 2020 - Issue 1: Proceedings of the Joint Symposium of the Tenth International Conference of The Chinese Society of Micro-Nano Technology and Microsystems and Nanoengineering Summit 2019 (CSMNT2019 & MAN2019): Part V of V
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Articles

First principles calculation of the lattice constants of hexagonal and cubic boron nitride to 3000 K and 30 Gpa

Lichao CaiSchool of Materials Science and Engineering, Shandong University, Jinan, China; View further author information
,
Xiaohong FanSchool of Materials Science and Engineering, Shandong Jianzhu University, Jinan, China; View further author information
,
Haitong SuShandong Institute for Product Quality Inspection, Jinan, ChinaView further author information
,
Meizhe LvSchool of Materials Science and Engineering, Shandong Jianzhu University, Jinan, China; View further author information
&
Bin XuSchool of Materials Science and Engineering, Shandong University, Jinan, China; ;School of Materials Science and Engineering, Shandong Jianzhu University, Jinan, China; Correspondence[email protected]
View further author information
Pages 136-144 | Received 11 Nov 2019, Accepted 30 Jan 2020, Published online: 28 Sep 2020
 
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Abstract

The lattice constants of hexagonal and cubic boron nitride at the range pressure of 0–30 GPa and at the range temperature of 0–3000 K are calculated by ultra-soft Vanderbilt with the local density approximation (USPP_LDA) and the projector-augmented wave with generalized gradient approximation (PAW_GGA) respectively. Good agreement is achieved between the theoretical and experimental results in lattice constants of hexagonal and cubic boron nitride at a given temperature and pressure. In this work, USPP_LDA is more suitable to calculate lattice constants of hexagonal boron nitride, while PAW_GGA has higher accuracy in the calculation of lattice constants of cubic boron nitride. The theoretical results of lattice constants of c-BN have more accuracy than those of h-BN with increasing pressure using both PAW_GGA and USPP_LDA methods.

Additional information

Funding

This work was supported by the National Natural Science Foundation of China under Grant No. 51272139.

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