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Literature DB >> 21360183

Structural phase transition of SnSe under uniaxial stress and hydrostatic pressure: an ab initio study.

Abstract

We study the structural behavior of SnSe under the hydrostatic pressure using a constant pressure ab initio technique. We find SnSe undergoes a structural second order phase transition from the orthorhombic (Pnma) structure to orthorhombic (Cmcm) structure in the constant pressure simulation at 7 GPa which is in good agreement with the recent experimental study. The Cmcm structure is fivefold coordinated. This phase transition is also analyzed from the total energy calculations. Besides, we study the behavior of SnSe under uniaxial stress.

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Year: 2011 PMID： 21360183 DOI： 10.1007/s00894-011-1019-2

Source DB: PubMed Journal: J Mol Model ISSN： 0948-5023 Impact factor: 1.810

7 in total

5. Vibrational properties of the layered semiconductor germanium sulfide under hydrostatic pressure: Theory and experiment.

Authors:
Journal: Phys Rev B Condens Matter Date: 1996-06-01

6. Self-consistent order-N density-functional calculations for very large systems.

Authors:
Journal: Phys Rev B Condens Matter Date: 1996-04-15

7. High-pressure effects in the layered semiconductor germanium selenide.

Authors:
Journal: Phys Rev B Condens Matter Date: 1995-06-15

7 in total

3 in total

Structural phase transition of SnSe under uniaxial stress and hydrostatic pressure: an ab initio study.

1. Generalized Gradient Approximation Made Simple.

2. Efficient pseudopotentials for plane-wave calculations.

3. High-pressure Mössbauer study of SnSe.

4. Pressure-induced first-order transition in layered crystalline semiconductor GeSe to a metallic phase.

5. Vibrational properties of the layered semiconductor germanium sulfide under hydrostatic pressure: Theory and experiment.

6. Self-consistent order-N density-functional calculations for very large systems.

7. High-pressure effects in the layered semiconductor germanium selenide.

1. Pressure-induced improvement in symmetry and change in electronic properties of SnSe.

2. Pressure-induced phase transition in wurtzite ZnTe: an ab initio study.

3. Enhanced power factor via the control of structural phase transition in SnSe.