Lead-free inorganic cubic halide perovskites exhibit outstanding physical properties in solar
technology. Ba 3 NCl 3 emerges as a promising absorber material in solar cells. Utilizing …

Inorganic perovskite materials have drawn great attention in the realm of solar technology
because of their remarkable structural, electronic, and optical properties. Herein, we …

Ca 3 NCl 3 has unique electrical and optical properties and shows great potential as an
absorber for solar cells, offering a promising solution for enhancing efficiency and reducing …

Inbuilt high energy band gap and resistivity cause harm to the intrinsic molybdenum trioxide
(MoO3) for utilizing it directly in gas sensing and optoelectronic devices. Do** with …

The incredible optical, structural, and electronic behaviors of inorganic type perovskite
compounds have recently attracted considerable interest in the area of solar innovation. This …

This study uses DFT first-principles calculations to explore the structural, thermodynamic,
electronic, phonon, mechanical, elastic, and optical properties of calcium-based halide …

This manuscript thoroughly examines the structural, mechanical, electrical, and optical
attributes of Ca 3 AsI 3 through first principles-based DFT simulations. The mechanical study …

Inorganic halide perovskite-based compounds of A 3 BX 3 have been gaining huge
attention during the development of high-efficiency solar cells (SC) in recent years. This …

Strontium antimony iodide (Sr3SbI3) showing distinct structural, electrical, and optical
features is a recently develo** potential absorber material for designing efficient and …

Researchers are now focusing on inorganic halide-based cubic metal perovskites that are
not toxic as they strive to commercialize optoelectronic products and solar cells derived from …