Development on inverted perovskite solar cells: A review

“…85,112,113 Eminent research groups reviewed the development and prospects of organic HSMs for p-i-n PSCs in recent years. 84,112–121 As most of the organic HSMs incorporated phenylamine derivatives as donor units, understanding the influence of the different types of central core structural units in determining photovoltaic and stability performance will provide important information for selecting core units in future HSM molecular design for p-i-n PSCs. However, so far, comprehensive analyses of these central core units for p-i-n PSCs are limited in the literature.…”

Structural divergence of molecular hole selective materials for viable p-i-n perovskite photovoltaics: a comprehensive review

“…85,112,113 Eminent research groups reviewed the development and prospects of organic HSMs for p-i-n PSCs in recent years. 84,112–121 As most of the organic HSMs incorporated phenylamine derivatives as donor units, understanding the influence of the different types of central core structural units in determining photovoltaic and stability performance will provide important information for selecting core units in future HSM molecular design for p-i-n PSCs. However, so far, comprehensive analyses of these central core units for p-i-n PSCs are limited in the literature.…”

Structural divergence of molecular hole selective materials for viable p-i-n perovskite photovoltaics: a comprehensive review

“…10–17 Enhancing the performance of IPSCs heavily relies on the formation of high-quality perovskite films with low defect density. 18–21 However, the low formation energy and soft lattice properties always induce a large number of defects in the perovskite film, especially at the surface and grain boundaries. 22–27 Consequently, it is crucial to passivate these defects on both the surfaces and grain boundaries of perovskite for optimal device performance.…”

Achieving a high-quality active film through surface passivation to enhance the stability of inverted perovskite solar cells

“…The planar architectures of perovskite solar cell devices can be either regular n-i-p or inverted p-i-n [12,13]. Owing to the benefits of easy manufacturing, the flexibility of reduced temperature treatment, and slight JV hysteresis impact, the development of a configuration known as 'inverted' has recently become an attractive structure [14,15].…”

Boosting the efficiency of an inverted structure halide perovskite solar cell: a numerical investigation