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Part B: Condensed Matter Physics

First-principles study of pressure-induced phase transitions and electronic structure of Be3P2 polymorphs

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Pages 1159-1169 | Received 22 Jun 2011, Accepted 10 Nov 2011, Published online: 12 Dec 2011
 

Abstract

Structural parameters and electronic bandgaps of two polymorphs of Be3P2 were determined using the first-principles periodic linear combination of atomic orbitals method within the framework of density functional theory implemented in the CRYSTAL code. We studied the tetragonal structure and the cubic O2-type polymorph of Be3P2 which is found to exist at high pressure. Coupling total energy calculations with the Murnaghan equation of state, equilibrium lattice constants and bulk moduli for tetragonal and cubic O2-type Be3P2 are reported. Isothermal pressure-induced structural phase transitions from tetragonal → cubic O2-type and cubic α → cubic O2-type are observed to occur at 25.5 GPa and 217.5 GPa, respectively, from enthalpy calculations. The electronic band structure calculations predict that both tetragonal and cubic O2-type polymorphs of Be3P2 have direct bandgaps of 1.45 eV and 1.22 eV, suggesting utility in IR sensors and detectors. Pressure-dependent band structure calculations were performed to obtain pressure coefficient and volume deformation potential.

Acknowledgements

UP is grateful to the Council of Scientific and Industrial Research, New Delhi, for awarding a Senior Research Fellowship. The authors wish to thank Dr. B.K. Sharma for fruitful suggestions.

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