Spin-polarized ground state properties of Cr2AlX (X=C, N and B) ceramics

Sezgin Aydin

Spin-polarized ground state properties of Cr2AlX (X=C, N and B) ceramics

Year 2015, Volume: 28 Issue: 2, 185 - 193, 22.06.2015

Abstract

The ground state structural, electronic and mechanical properties of Cr₂AlX (X=C, N and B) ceramics have been investigated by first-principles density functional pseudopotential plane-wave calculations with and without spin-polarization effects. Especially, the effects of substitutional boron atoms on the structure and properties of Cr₂AlC have been discussed in detail for the first time. All of the compounds, including newly presented Cr₂AlB are energetically and mechanically stable. From spin-polarized first-principles calculations, it is interestingly concluded that the ground states of Cr₂AlX (X=C, N and B) compounds should have magnetic character, and this assertion is supported that the theoretical results obtained from spin-polarized calculations are in excellent agreement with the experiment. Furthermore, the bonding, partial and total magnetic characteristics are explored in detail, by means of partial and total spin density of states, Mulliken atomic charges and bond overlap populations, and 2D electron density maps. Additionally, the elastic and mechanical properties are studied. And, theoretical hardnesses of Cr₂AlX (X=C, N and B) compounds are calculated, and it observed that the metallicity of the compounds plays an important role on the hardness.

Keywords

First-principles; spin-polarization; magnetic properties; mechanical properties; hardness

References

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Year 2015, Volume: 28 Issue: 2, 185 - 193, 22.06.2015

Sezgin Aydin

Abstract

References

M. W. Barsoum, Prog. Solid State Chem. 28, 201 (2000)
J. Wang, Y. Zhou, Phys. Rev. B 69, 214111 (2004)
Z.Sun, R.Ahuja, J.M. Schneider, Phys. Rev. B 68, 224112 (2003)
Z.Sun, D. Music, R.Ahuja, S. Li and J.M. Schneider, Phys. Rev. B 70, 092102 (2004)
G. Hug, M. Jaouen and M. W. Barsoum, Phys. Rev. B 71, 024105 (2005)
G. Ying, X. He, M. Li, S. Du, W. Han, F. He, j. Alloys Compd. 509, 8022 (2011)
G. Ying, X. He, M. Li, W. Han, F. He, S. Du, Mater. Sci. Eng. A 528, 2635 (2011)
L.-O. Xiao, S.-B. Li, G. Song, W. G. Sloof, J. Eur. Ceram. Soc. 31, 1497 (2011)
S. B. Li, W. B. Yu, H. X. Zhai, G. m. Song, W. G. Sloof, S. van der Zwaag, J. Eur. Ceram. Soc. 31, 217 (2011)
W. Tian, P. Wang, G. Zhang, Y. Kan and Y. Li, J. Am. Ceram. Soc. 90, 1663 (2007)
W. Tian, P. Wang, G. Zhang, Y. Kan, Y. Li, D. Yan, Scripta Materialia 54, 841 (2006)
J.D. Hettinger, S.E.Lofland, P.Finkel, T. Meehan, J. Palma, K. Harrell, S. Gupta, A. Ganguly, T. El- Raghy and M. W. Barsoum, Phys. Rev. B 72, 115120 (2005)
Z. Sun, S. li, R. Ahuja, J. M. Schneider, Solid State Comm. 129, 589 (2004)
Z. Sun, D. Music, r. Ahuja, S. Li, J. M. Schneider, Phys. Rev. B 70, 092102 (2004)
Z. sun, D. Music, R. Ahuja, J. M. Schneider, J. Phys.: Condens. Matter 17, L15 (2005)
S. Cui, D. Wei, H. Hu, W. Feng, Z. Gong, J. Solid State Chem. 191, 147 (2012)
S. J. Clark, M. D. Segall, C. J. Pickard, P. J. Hasnip, M. J. Probert, K. Refson, M. C. Payne, Zeitschrift fuer Kristallographie 220, 567 (2005)
J. P. Perdew, K. Burke, M. Ernzerhof, Phys. Rev. B 46, 6671 (1992)
J. P. Perdew, J. A. Chevary, S. H. Vosko, K. A. Jackson, M. R. Pederson, D. J. Singh, C. Fiolhais, Phys. Rev. B 46, 6671 (1992)
Z. Wu, R. E. Cohen, Phys. Rev. B 73, 235116 (2006)
J. P. Perdew, A. Ruzsinszky, G. I. Csonka, O. A. Vydrov, G. E. Scuseria, L. A. Constantin, X. Zhou, and K. Burke, Phys. Rev. Lett. 100, 136406 (2008)
H.J. Monkhorst, J.D. Pack, Phys. Rev. B 17, 5158 (1976)
D. Vanderbilt, Phys. Rev. B 41, 7892 (1990)
B. G. Pfrommer, M. Cote, S. G. Louie, M. L. Cohen, J. Comput. Phys. 131, 133 (1997)
M. B. Kanoun, S. G. Said and M. Jaouen, J.Phys.: Condens. Matter 21, 045404 (2009)
G. Hug, Phys. Rev. B 74, 184113 (2006)
Z. J. Wu, E. J. Zhao, H. P. Xiang, X. F. Hao, X. J. Liu, and J. Meng, Phys. Rev. B 76, 054115 (2007)
S. Q. Wu, Z. F. Hou, and Z. Z. Zhu, Solid State Commun. 143, 425 (2007)
X. Guo, Lei Li, Z. Liu, D. Yu, J. He, R. Liu, B. Xu, Y. Tian and H.-T. Wang, J. Applied Physics 104, 023503 (2008)
A. Simunek and J. Vackar, Phys. Rev. Lett. 96, 085501 (2006)
K. Li, X. Wang, F. Zhang, and D. Xue, Phys. Rev. Lett. 100, 235504 (2008)
A. O. Lyakhov, A. R. Oganov, Phys. Rev. B 84, 092103 (2011)
Z. J. Lin, Y. C. Zhou, M. S. Li, J. Y. Wang, Z. Metallkd. 96, 291 (2005)

There are 33 citations in total.

Details

Primary Language	English
Journal Section	Physics
Authors	Sezgin Aydin
Publication Date	June 22, 2015
Published in Issue	Year 2015 Volume: 28 Issue: 2

Cite

APA	Aydin, S. (2015). Spin-polarized ground state properties of Cr2AlX (X=C, N and B) ceramics. Gazi University Journal of Science, 28(2), 185-193.
AMA	Aydin S. Spin-polarized ground state properties of Cr2AlX (X=C, N and B) ceramics. Gazi University Journal of Science. June 2015;28(2):185-193.
Chicago	Aydin, Sezgin. “Spin-Polarized Ground State Properties of Cr2AlX (X=C, N and B) Ceramics”. Gazi University Journal of Science 28, no. 2 (June 2015): 185-93.
EndNote	Aydin S (June 1, 2015) Spin-polarized ground state properties of Cr2AlX (X=C, N and B) ceramics. Gazi University Journal of Science 28 2 185–193.
IEEE	S. Aydin, “Spin-polarized ground state properties of Cr2AlX (X=C, N and B) ceramics”, Gazi University Journal of Science, vol. 28, no. 2, pp. 185–193, 2015.
ISNAD	Aydin, Sezgin. “Spin-Polarized Ground State Properties of Cr2AlX (X=C, N and B) Ceramics”. Gazi University Journal of Science 28/2 (June 2015), 185-193.
JAMA	Aydin S. Spin-polarized ground state properties of Cr2AlX (X=C, N and B) ceramics. Gazi University Journal of Science. 2015;28:185–193.
MLA	Aydin, Sezgin. “Spin-Polarized Ground State Properties of Cr2AlX (X=C, N and B) Ceramics”. Gazi University Journal of Science, vol. 28, no. 2, 2015, pp. 185-93.
Vancouver	Aydin S. Spin-polarized ground state properties of Cr2AlX (X=C, N and B) ceramics. Gazi University Journal of Science. 2015;28(2):185-93.

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