Performance optimization of lead-free potassium germanium halide based perovskite solar cells: A numerical study
Conventional lead-halide perovskite solar cells (PSCs) have great potential as top
contenders for commercial utilization due to their impressive performance. Nevertheless, the …
contenders for commercial utilization due to their impressive performance. Nevertheless, the …
Boosting the effectiveness of a cutting-edge Ca3NCl3 perovskite solar cell by fine-tuning the hole transport layer
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 …
absorber for solar cells, offering a promising solution for enhancing efficiency and reducing …
Comprehensive analysis of heterojunction compatibility of various perovskite solar cells with promising charge transport materials
The allure of perovskite solar cells (PSCs), which has captivated the interest of researchers,
lies in their versatility to incorporate a wide range of materials within the cell's structure. The …
lies in their versatility to incorporate a wide range of materials within the cell's structure. The …
Analyzing the Effect of Planar and Inverted Structure Architecture on the Properties of MAGeI3 Perovskite Solar Cells
Charge transport layers (CTLs) have remarkable influence on the stability and efficiency of
perovskite cells (PSCs). Different CTL combination used with the perovskite forms unique …
perovskite cells (PSCs). Different CTL combination used with the perovskite forms unique …
Optimization of Sr3NCl3-based perovskite solar cell performance through the comparison of different electron and hole transport layers
Abstract Strontium Nitride Trichloride (Sr 3 NCl 3) is a promising absorber material for solar
cells due to its unique structural, electrical, and optical properties. We conducted a thorough …
cells due to its unique structural, electrical, and optical properties. We conducted a thorough …
Optimizing band gap, electron affinity, & carrier mobility for improved performance of formamidinium lead tri-iodide perovskite solar cells
Perovskite solar cells (PSC) offer the advantage of tunable nature, allowing for the
adjustment of cell design parameters to enhance performance. This study focuses on the …
adjustment of cell design parameters to enhance performance. This study focuses on the …
Examining the electronic, structural, optical, and photovoltaic capabilities of Sr3AsBr3 perovskite under tensile and compressive strains with DFT and SCAPS-1D
A significant amount of interest in the field of solar energy has recently been generated by
the remarkable optical, structural, and electronic attributes of inorganic perovskite-based …
the remarkable optical, structural, and electronic attributes of inorganic perovskite-based …
Interface engineering and defect passivation for enhanced hole extraction, ion migration, and optimal charge dynamics in both lead-based and lead-free perovskite …
The study elucidates the potential benefits of incorporating a BiI3 interfacial layer into
perovskite solar cells (PSCs). Using MAPbI3 and MAGeI3 as active layers, complemented …
perovskite solar cells (PSCs). Using MAPbI3 and MAGeI3 as active layers, complemented …
Exploring the potential of MAGeI3 perovskite cells with novel charge transport material optimization
Germanium-perovskites have emerged as alternatives to lead-perovskites due to similar
photovoltaic properties but lower efficiency (PCE) because of a larger band-gap. However …
photovoltaic properties but lower efficiency (PCE) because of a larger band-gap. However …
Evaluating the influence of novel charge transport materials on the photovoltaic properties of MASnI3 solar cells through SCAPS-1D modelling
In recent decades, substantial advancements have been made in photovoltaic technologies,
leading to impressive power conversion efficiencies (PCE) exceeding 25% in perovskite …
leading to impressive power conversion efficiencies (PCE) exceeding 25% in perovskite …