An Efficient Approach for Controlling the Crystallization, Strain, and Defects of the Perovskite Films in Hybrid Perovskite Solar Cells Through Antisolvent Engineering

“…[43][44][45] However, additional mechanisms may affect the resistive switching, such as the presence of interfacial Schottky barriers or trap-controlled space charge limited currents. 46,47 These processes are sensitive to environmental conditions, such as oxygen and moisture, which can compromise the durability of perovskite devices, necessitating alternative stabilisation strategies. 48,49 To address this, layered (2D) halide perovskites that incorporate organic spacer layers between perovskite slabs in either Ruddlesden Popper 50 (RP) or Dion-Jacobson (DJ) 51 phases have been applied to resistive switching devices.…”

Resistive switching memories with enhanced durability enabled by mixed-dimensional perfluoroarene perovskite heterostructures

“…[43][44][45] However, additional mechanisms may affect the resistive switching, such as the presence of interfacial Schottky barriers or trap-controlled space charge limited currents. 46,47 These processes are sensitive to environmental conditions, such as oxygen and moisture, which can compromise the durability of perovskite devices, necessitating alternative stabilisation strategies. 48,49 To address this, layered (2D) halide perovskites that incorporate organic spacer layers between perovskite slabs in either Ruddlesden Popper 50 (RP) or Dion-Jacobson (DJ) 51 phases have been applied to resistive switching devices.…”

Resistive switching memories with enhanced durability enabled by mixed-dimensional perfluoroarene perovskite heterostructures