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<scp>DFT</scp> Insights Into the Structural, Stability, Elastic, and Optoelectronic Characteristics of <scp> Na <sub>2</sub> LiZF <sub>6</sub> </scp> (Z = Ir and Rh) Double Perovskites for Sustainable Energy

Adil Es‐Smairi, Samah Al‐Qaisi, N. Sfina, Abderrazak Boutramine, Hamad Rahman Jappor, Hind Saeed Alzahrani, Amani H. Alfaifi, H. Rached, Ajay Singh Verma, Marouane Archi, Md. Ferdous Rahman

2025Journal of Computational Chemistry72 citationsDOIOpen Access PDF

Abstract

ABSTRACT Halide perovskites have gained significant attention due to their tunable bandgaps and environmentally friendly properties, making them strong candidates for advanced optoelectronic applications. In this study, we employed the FP‐LAPW method to explore the structural, electronic, and optical properties of Na 2 LiZF 6 (Z = Ir and Rh). Our findings confirm the stability of the cubic phase through a Goldschmidt tolerance factor of 0.99 and negative formation energies of −3.34 Ry for Na 2 LiIrF 6 and −3.22 Ry for Na 2 LiRhF 6 . Additionally, phonon dispersion analysis verifies their dynamic stability. Mechanical analysis indicates that these materials are structurally robust, with bulk moduli of 84.21 and 80.48 GPa, while their ductile nature is supported by Pugh's ratios of 2.21 and 2.41, respectively. From an electronic perspective, both compounds exhibit indirect bandgaps of 4.05 and 3.98 eV, making them suitable for UV applications. Optical studies further reveal strong UV absorption, with static dielectric constants of 1.42 and 1.50, along with refractive indices ( n (0)) of 1.19 and 1.22. These characteristics make Na 2 LiZF 6 (Z = Ir and Rh) promising candidates for next‐generation UV photodetectors and light‐emitting devices.

Topics & Concepts

PhononMaterials scienceAbsorption (acoustics)HalideDispersion (optics)Phase (matter)DielectricOptoelectronicsChemistryCondensed matter physicsOpticsPhysicsInorganic chemistryComposite materialOrganic chemistryPerovskite Materials and ApplicationsMicrowave Dielectric Ceramics SynthesisHeusler alloys: electronic and magnetic properties