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Exploring the structural, mechanical, magneto-electronic and thermophysical properties of f electron based XNpO3 perovskites (X = Na, Cs, Ca, Ra)

Sakshi Gautam, Dinesh C. Gupta

2024Scientific Reports16 citationsDOIOpen Access PDF

Abstract

(X = Na, Cs, Ca, Ra) perovskites by first principles calculations. The structural optimization, tolerance factor criteria depicts the cubic structural stability of these alloys. Further, the stability of these materials is also determined by the cohesive and formation energy calculations along with mechanical stability criteria. The electronic structure is explored by calculating band structure and density of states which reveal the well-known half-metallic nature of the materials. Further, we have calculated different thermodynamic parameters including specific heat capacity, thermal expansion, Gruneisen parameter and their variation with temperature and pressure. The thermoelectric effectiveness of these materials is predicted in terms of Seebeck coefficient, electrical conductivity and power factor. All-inclusive we can say that calculated properties of these half-metallic materials extend their route in spintronics, thermoelectric and radioisotope generators device applications.

Topics & Concepts

Seebeck coefficientThermoelectric materialsMaterials scienceThermoelectric effectGrüneisen parameterStructural stabilityThermodynamicsThermal expansionThermal conductivityElectrical resistivity and conductivityCondensed matter physicsElectronic structureElectronic band structureThermal stabilityChemistryComposite materialPhysicsEngineeringQuantum mechanicsOrganic chemistryStructural engineeringHeusler alloys: electronic and magnetic propertiesPerovskite Materials and ApplicationsThermal Expansion and Ionic Conductivity