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First-principles study on structural, elasto-mechanical, electronic, thermodynamic and hydrogen storage properties of XGeH3 (X=K, Rb) hydrides

Muhammad Salman Kiani, Abu Bakar, Erum Rehman

2024Results in Physics14 citationsDOIOpen Access PDF

Abstract

The first principles calculations are performed to calculate the structural, elastic, mechanical, phonon, electronic, optical, thermodynamic and hydrogen storage properties of lead free hydrides XGeH 3 ( X = K,Rb ) . The structural parameters such as bulk modulus, volume and pressure derivative are calculated using optimized lattice constants. KGeH 3 and RbGeH 3 have the lattice constant of 7.686 (a.u.) and 7.853 (a.u.). The slight increase in the lattice constant of RbGeH 3 is due to its larger ionic radii. The gravimetric hydrogen storage capacity Cwt % for KGeH 3 and RbGeH 3 is 2.58% and 1.84%. The electronic band structures and density of states suggested the metallic nature of both materials. The calculations of Pugh’s ratio, Poisson’s ratio and Cauchy pressure elucidated the brittle nature of XGeH 3 ( X = K,Rb ) . The quasi harmonic approximation is employed to study thermodynamic properties. The entropy and volume increase with temperature, while Debye temperature decreases as the applied temperature increases. The current study indicates that lead free hydride hydrides XGeH 3 ( X = K,Rb ) are potential candidates for hydrogen storage applications.

Topics & Concepts

Scalable Vector GraphicsThermodynamicsHydrogen storageMaterials scienceHydrogenPhysicsChemistryComputer scienceQuantum mechanicsOperating systemHydrogen Storage and MaterialsAdvanced Chemical Physics StudiesSuperconductivity in MgB2 and Alloys
First-principles study on structural, elasto-mechanical, electronic, thermodynamic and hydrogen storage properties of XGeH3 (X=K, Rb) hydrides | Litcius