Unlocking the potential of antisolvent-free perovskite solar cells: Modulating crystallization and intermediates through a binary volatile additive strategy
Nano Energy Elsevier 124 (2024) 109487
A multifunctional display based on photo-responsive perovskite light-emitting diodes
Nature Electronics Springer Nature (2024) 1-8
Unraveling Loss Mechanisms Arising from Energy‐Level Misalignment between Metal Halide Perovskites and Hole Transport Layers
Advanced Functional Materials Wiley (2024)
Improved charge extraction in inverted perovskite solar cells with dual-site-binding ligands.
Science (New York, N.Y.) 384:6692 (2024) 189-193
Abstract:
Inverted (pin) perovskite solar cells (PSCs) afford improved operating stability in comparison to their nip counterparts but have lagged in power conversion efficiency (PCE). The energetic losses responsible for this PCE deficit in pin PSCs occur primarily at the interfaces between the perovskite and the charge-transport layers. Additive and surface treatments that use passivating ligands usually bind to a single active binding site: This dense packing of electrically resistive passivants perpendicular to the surface may limit the fill factor in pin PSCs. We identified ligands that bind two neighboring lead(II) ion (Pb2+) defect sites in a planar ligand orientation on the perovskite. We fabricated pin PSCs and report a certified quasi-steady state PCE of 26.15 and 24.74% for 0.05- and 1.04-square centimeter illuminated areas, respectively. The devices retain 95% of their initial PCE after 1200 hours of continuous 1 sun maximum power point operation at 65°C.Ion-induced field screening as a dominant factor in perovskite solar cell operational stability
Nature Energy (2024) 1-13