Perovskite hydrides materials are acknowledged for hydrogen storage due to their high
capacity, reversibility, thermodynamic stability, tunable nature, and potential low-cost …

Potassium-based perovskites hold significant potential to revolutionize renewable
technology by enabling more cost-effective and sustainable energy devices. The DFT …

Magnetic double perovskites have garnered significant interest due to their unique magnetic
properties and are promising candidates for various spintronic applications. Spin-polarized …

Cesium-based double perovskite materials have generated significant interest because of
their fascinating prospects in various optoelectronic and thermoelectric uses. In this …

Hydrogen storage has gained popularity recently due to its advantages as an energy
source. Research on hydrogen storage applications primarily focuses on evaluating the …

Cesium-based double perovskites exhibit promising optoelectronic and thermoelectric
potential, making them appropriate candidates for efficient and stable renewable energy …

Double perovskite halide's remarkable physical qualities and ease of synthesis have drawn
much interest in the past few years. To analyze the structural and thermodynamic stability …

Semiconductor chalcopyrite compounds have been a subject of research interest due to
their diverse range of physical properties that have captured the attention of scientists. In this …

Double perovskites based on rubidium have demonstrated potential for obtaining high solar
cell power conversion efficiencies. Their distinct crystal structure and electrical …

The distinctive electronic characteristics of half-metallic materials make them exceptional as
they pave the way for innovations in spintronics and other magnetic fields. We predict the …