Silicene and transition metal based materials: prediction of a two-dimensional piezomagnet

Nelson Y Dzade; Kingsley O Obodo; Sampson K Adjokatse; Akosa C Ashu; Emmanuel Amankwah; Clement D Atiso; Abdulhakeem A Bello; Emmanuel Igumbor; Stany B Nzabarinda; Joshua T Obodo; Anthony O Ogbuu; Olu Emmanuel Femi; Josephine O Udeigwe; Umesh V Waghmare

doi:10.1088/0953-8984/22/37/375502

Silicene and transition metal based materials: prediction of a two-dimensional piezomagnet

Nelson Y Dzade
, Kingsley O Obodo
, Sampson K Adjokatse
, Akosa C Ashu
, Emmanuel Amankwah
, Clement D Atiso
, Abdulhakeem A Bello
, Emmanuel Igumbor
, Stany B Nzabarinda
, Joshua T Obodo
, Anthony O Ogbuu
, Olu Emmanuel Femi
, Josephine O Udeigwe
, Umesh V Waghmare

non-UU output of (former) DES-UU members

Research output: Contribution to journal › Article › Academic › peer-review

Abstract

We use first-principles density functional theory based calculations to determine the stability and properties of silicene, a graphene-like structure made from silicon, and explore the possibilities of modifying its structure and properties through incorporation of transition metal ions (M: Ti, Nb, Ta, Cr, Mo and W) in its lattice, forming MSi(2). While pure silicene is stable in a distorted honeycomb lattice structure obtained by opposite out-of-plane displacements of the two Si sub-lattices, its electronic structure still exhibits linear dispersion with the Dirac conical feature similar to graphene. We show that incorporation of transition metal ions in its lattice results in a rich set of properties with a clear dependence on the structural changes, and that CrSi(2) forms a two-dimensional magnet exhibiting a strong piezomagnetic coupling.

Original language	English
Pages (from-to)	375502
Journal	Journal of physics. Condensed matter
Volume	22
Issue number	37
DOIs	https://doi.org/10.1088/0953-8984/22/37/375502
Publication status	Published - 22 Sept 2010

Keywords

Electronics
Electrons
Graphite
Ions
Magnetics
Materials Testing
Metals
Models, Chemical
Silicon
Transition Elements

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10.1088/0953-8984/22/37/375502

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Dzade, N. Y., Obodo, K. O., Adjokatse, S. K., Ashu, A. C., Amankwah, E., Atiso, C. D., Bello, A. A., Igumbor, E., Nzabarinda, S. B., Obodo, J. T., Ogbuu, A. O., Femi, O. E., Udeigwe, J. O., & Waghmare, U. V. (2010). Silicene and transition metal based materials: prediction of a two-dimensional piezomagnet. Journal of physics. Condensed matter, 22(37), 375502. https://doi.org/10.1088/0953-8984/22/37/375502

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title = "Silicene and transition metal based materials: prediction of a two-dimensional piezomagnet",

abstract = "We use first-principles density functional theory based calculations to determine the stability and properties of silicene, a graphene-like structure made from silicon, and explore the possibilities of modifying its structure and properties through incorporation of transition metal ions (M: Ti, Nb, Ta, Cr, Mo and W) in its lattice, forming MSi(2). While pure silicene is stable in a distorted honeycomb lattice structure obtained by opposite out-of-plane displacements of the two Si sub-lattices, its electronic structure still exhibits linear dispersion with the Dirac conical feature similar to graphene. We show that incorporation of transition metal ions in its lattice results in a rich set of properties with a clear dependence on the structural changes, and that CrSi(2) forms a two-dimensional magnet exhibiting a strong piezomagnetic coupling.",

keywords = "Electronics, Electrons, Graphite, Ions, Magnetics, Materials Testing, Metals, Models, Chemical, Silicon, Transition Elements",

author = "Dzade, \{Nelson Y\} and Obodo, \{Kingsley O\} and Adjokatse, \{Sampson K\} and Ashu, \{Akosa C\} and Emmanuel Amankwah and Atiso, \{Clement D\} and Bello, \{Abdulhakeem A\} and Emmanuel Igumbor and Nzabarinda, \{Stany B\} and Obodo, \{Joshua T\} and Ogbuu, \{Anthony O\} and Femi, \{Olu Emmanuel\} and Udeigwe, \{Josephine O\} and Waghmare, \{Umesh V\}",

year = "2010",

month = sep,

day = "22",

doi = "10.1088/0953-8984/22/37/375502",

language = "English",

volume = "22",

pages = "375502",

journal = "Journal of physics. Condensed matter",

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Dzade, NY, Obodo, KO, Adjokatse, SK, Ashu, AC, Amankwah, E, Atiso, CD, Bello, AA, Igumbor, E, Nzabarinda, SB, Obodo, JT, Ogbuu, AO, Femi, OE, Udeigwe, JO & Waghmare, UV 2010, 'Silicene and transition metal based materials: prediction of a two-dimensional piezomagnet', Journal of physics. Condensed matter, vol. 22, no. 37, pp. 375502. https://doi.org/10.1088/0953-8984/22/37/375502

TY - JOUR

T1 - Silicene and transition metal based materials

T2 - prediction of a two-dimensional piezomagnet

AU - Dzade, Nelson Y

AU - Obodo, Kingsley O

AU - Adjokatse, Sampson K

AU - Ashu, Akosa C

AU - Amankwah, Emmanuel

AU - Atiso, Clement D

AU - Bello, Abdulhakeem A

AU - Igumbor, Emmanuel

AU - Nzabarinda, Stany B

AU - Obodo, Joshua T

AU - Ogbuu, Anthony O

AU - Femi, Olu Emmanuel

AU - Udeigwe, Josephine O

AU - Waghmare, Umesh V

PY - 2010/9/22

Y1 - 2010/9/22

N2 - We use first-principles density functional theory based calculations to determine the stability and properties of silicene, a graphene-like structure made from silicon, and explore the possibilities of modifying its structure and properties through incorporation of transition metal ions (M: Ti, Nb, Ta, Cr, Mo and W) in its lattice, forming MSi(2). While pure silicene is stable in a distorted honeycomb lattice structure obtained by opposite out-of-plane displacements of the two Si sub-lattices, its electronic structure still exhibits linear dispersion with the Dirac conical feature similar to graphene. We show that incorporation of transition metal ions in its lattice results in a rich set of properties with a clear dependence on the structural changes, and that CrSi(2) forms a two-dimensional magnet exhibiting a strong piezomagnetic coupling.

AB - We use first-principles density functional theory based calculations to determine the stability and properties of silicene, a graphene-like structure made from silicon, and explore the possibilities of modifying its structure and properties through incorporation of transition metal ions (M: Ti, Nb, Ta, Cr, Mo and W) in its lattice, forming MSi(2). While pure silicene is stable in a distorted honeycomb lattice structure obtained by opposite out-of-plane displacements of the two Si sub-lattices, its electronic structure still exhibits linear dispersion with the Dirac conical feature similar to graphene. We show that incorporation of transition metal ions in its lattice results in a rich set of properties with a clear dependence on the structural changes, and that CrSi(2) forms a two-dimensional magnet exhibiting a strong piezomagnetic coupling.

KW - Electronics

KW - Electrons

KW - Graphite

KW - Ions

KW - Magnetics

KW - Materials Testing

KW - Metals

KW - Models, Chemical

KW - Silicon

KW - Transition Elements

U2 - 10.1088/0953-8984/22/37/375502

DO - 10.1088/0953-8984/22/37/375502

M3 - Article

C2 - 21403198

SN - 0953-8984

VL - 22

SP - 375502

JO - Journal of physics. Condensed matter

JF - Journal of physics. Condensed matter

IS - 37

ER -

Silicene and transition metal based materials: prediction of a two-dimensional piezomagnet

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Keywords

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