. 2016 Dec 28;7(1):3.

doi: 10.3390/nano7010003.

Pnma-BN: Another Boron Nitride Polymorph with Interesting Physical Properties

Zhenyang Ma¹, Zheng Han², Xuhong Liu³, Xinhai Yu⁴, Dayun Wang⁵, Yi Tian⁶

Affiliations

¹ Tianjin Key Laboratory for Civil Aircraft Airworthiness and Maintenance, Civil Aviation University of China, Tianjin 300300, China. zyma@cauc.edu.cn.
² Tianjin Key Laboratory for Civil Aircraft Airworthiness and Maintenance, Civil Aviation University of China, Tianjin 300300, China. hanzhengcauc@163.com.
³ Tianjin Key Laboratory for Civil Aircraft Airworthiness and Maintenance, Civil Aviation University of China, Tianjin 300300, China. hxliu@126.com.
⁴ Tianjin Key Laboratory for Civil Aircraft Airworthiness and Maintenance, Civil Aviation University of China, Tianjin 300300, China. xhyu11987@163.com.
⁵ Tianjin Key Laboratory for Civil Aircraft Airworthiness and Maintenance, Civil Aviation University of China, Tianjin 300300, China. dayunwangcauc@163.com.
⁶ Tianjin Key Laboratory for Civil Aircraft Airworthiness and Maintenance, Civil Aviation University of China, Tianjin 300300, China. ty_cauc@163.com.

PMID: 28336837
PMCID: PMC5295193
DOI: 10.3390/nano7010003

Pnma-BN: Another Boron Nitride Polymorph with Interesting Physical Properties

Zhenyang Ma et al. Nanomaterials (Basel). 2016.

. 2016 Dec 28;7(1):3.

doi: 10.3390/nano7010003.

Authors

Zhenyang Ma¹, Zheng Han², Xuhong Liu³, Xinhai Yu⁴, Dayun Wang⁵, Yi Tian⁶

Affiliations

¹ Tianjin Key Laboratory for Civil Aircraft Airworthiness and Maintenance, Civil Aviation University of China, Tianjin 300300, China. zyma@cauc.edu.cn.
² Tianjin Key Laboratory for Civil Aircraft Airworthiness and Maintenance, Civil Aviation University of China, Tianjin 300300, China. hanzhengcauc@163.com.
³ Tianjin Key Laboratory for Civil Aircraft Airworthiness and Maintenance, Civil Aviation University of China, Tianjin 300300, China. hxliu@126.com.
⁴ Tianjin Key Laboratory for Civil Aircraft Airworthiness and Maintenance, Civil Aviation University of China, Tianjin 300300, China. xhyu11987@163.com.
⁵ Tianjin Key Laboratory for Civil Aircraft Airworthiness and Maintenance, Civil Aviation University of China, Tianjin 300300, China. dayunwangcauc@163.com.
⁶ Tianjin Key Laboratory for Civil Aircraft Airworthiness and Maintenance, Civil Aviation University of China, Tianjin 300300, China. ty_cauc@163.com.

PMID: 28336837
PMCID: PMC5295193
DOI: 10.3390/nano7010003

Abstract

Structural, mechanical, electronic properties, and stability of boron nitride (BN) in Pnma structure were studied using first-principles calculations by Cambridge Serial Total Energy Package (CASTEP) plane-wave code, and the calculations were performed with the local density approximation and generalized gradient approximation in the form of Perdew-Burke-Ernzerhof. This BN, called Pnma-BN, contains four boron atoms and four nitrogen atoms buckled through sp³-hybridized bonds in an orthorhombic symmetry unit cell with Space group of Pnma. Pnma-BN is energetically stable, mechanically stable, and dynamically stable at ambient pressure and high pressure. The calculated Pugh ratio and Poisson's ratio revealed that Pnma-BN is brittle, and Pnma-BN is found to turn brittle to ductile (~94 GPa) in this pressure range. It shows a higher mechanical anisotropy in Poisson's ratio, shear modulus, Young's modulus, and the universal elastic anisotropy index A^U. Band structure calculations indicate that Pnma-BN is an insulator with indirect band gap of 7.18 eV. The most extraordinary thing is that the band gap increases first and then decreases with the increase of pressure from 0 to 60 GPa, and from 60 to 100 GPa, the band gap increases first and then decreases again.

Keywords: BN polymorph; anisotropic properties; electronic properties; mechanical properties.

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Conflict of interest statement

The authors declare no conflict of interest.

Figures

**Figure 1**
Unit cell crystal structures of BN in *Pnma* structure.

**Figure 2**
The lattice constants a/a₀, b/b₀, c/c₀ compression as functions of pressure for *Pnma*-BN (a), and primitive cell volume V/V₀ for *Pbca*-BN, *Pnma*-BN, c-BN, and diamond (b).

**Figure 3**
The phonon spectra of *Pnma*-BN at 0 GPa (a) and 100 GPa (b); Mixing enthalpy ΔH of BN alltropes calculated using PBE (c).

**Figure 4**
Elastic constants and elastic modulus (a) and B/G ratio (b); Poissons’ ratio v (c) of *Pnma*-BN as a function of pressure.

**Figure 5**
The surface construction of Poisson’s ratio (a); shear modulus (b); and Young’s modulus (c) for the *Pnma*-BN.

**Figure 6**
2D representation of Poisson’s ratio (a); shear modulus (b) and Young’s modulus (c) in the main plane for *Pnma*-BN, respectively.

**Figure 7**
The band structures under pressure of *Pnma*-BN, (a) 0 GPa, (b) 30 GPa, (c) 60 GPa, (d) 100 GPa.

**Figure 8**
The band gap under pressure of *Pnma*-BN (a), the Fermi level and the energy of G high-symmetry points along valence band maximum (VBM) (b); the energy of T and Y high-symmetry points along conduction band minimum (CBM) (c).

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Pnma-BN: Another Boron Nitride Polymorph with Interesting Physical Properties

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Pnma-BN: Another Boron Nitride Polymorph with Interesting Physical Properties

Authors

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Abstract

Conflict of interest statement

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