Recent progress in perovskite solar cells: challenges from efficiency to stability

“…21 Owing to the unique properties of perovskite materials such as strong light-harvesting ability, low exciton binding energy, long charge carrier diffusion length (B1 mm), high mobility (410 cm 2 V À1 s À1 ), and efficient ambipolar charge transport, [22][23][24] the performance of PSCs has witnessed explosive growth in a short time. 25 Typical PSC devices often include a perovskite material, a hole transporting material (HTM), an electron transporting material (ETM), and electrodes. 26,27 Because of the ambipolar charge transport properties of perovskite materials, both conventional n-i-p and inverted p-i-n type PSCs can work effectively.…”

Recent advances in dopant-free organic hole-transporting materials for efficient, stable and low-cost perovskite solar cells

“…21 Owing to the unique properties of perovskite materials such as strong light-harvesting ability, low exciton binding energy, long charge carrier diffusion length (B1 mm), high mobility (410 cm 2 V À1 s À1 ), and efficient ambipolar charge transport, [22][23][24] the performance of PSCs has witnessed explosive growth in a short time. 25 Typical PSC devices often include a perovskite material, a hole transporting material (HTM), an electron transporting material (ETM), and electrodes. 26,27 Because of the ambipolar charge transport properties of perovskite materials, both conventional n-i-p and inverted p-i-n type PSCs can work effectively.…”

Recent advances in dopant-free organic hole-transporting materials for efficient, stable and low-cost perovskite solar cells

“…Recently, solar cells made of lead halide perovskites have achieved a power conversion efficiency (PCE) of more than 25%. [ 1 ] Despite the remarkable optoelectronic properties of lead halide perovskites, the material's toxicity [ 2 ] and long‐term stability [ 3 ] are the major challenges to realize large‐scale PV applications. To overcome these issues, lead‐free perovskite compounds with good ambient stability have been explored.…”

Investigation of Defects in Cs₂SnI₆‐Based Double Perovskite Solar Cells Via SCAPS‐1D

“…[1] The instability and sensitivity of perovskite materials also limit the fabrication of micro/nanostructures on curved surfaces using the soluble substrate method. [46] The 3D printing technology also faces the issue of reduced efficiency. [47] Therefore, to address the aforementioned issues, an in situ method for directly growing perovskite microwire crystal (MWC) arrays on curved substrates via temperature gradientassisted nanoimprinting is proposed in the present study.…”

“…[ 1 ] The instability and sensitivity of perovskite materials also limit the fabrication of micro/nanostructures on curved surfaces using the soluble substrate method. [ 46 ] The 3D printing technology also faces the issue of reduced efficiency. [ 47 ]…”

Curved Photodetectors Based on Perovskite Microwire Arrays via In Situ Conformal Nanoimprinting