Interface dipole at nickel oxide surface to enhance the photovoltage of perovskite solar cells

Inorganic nickel oxide (NiO x )-based inverted perovskite solar cells (PSCs) are reported to be more stable compared to those using organic hole transport layer materials. However, the Fermi level of NiO x is relatively away from the valence band of perovskite (PVK) layer, causing a large energy level shift at the NiO x /PVK interface and a weak built-in electric field strength . These increase the possibility of recombination, reduce the effective charge collection, seriously affect the efficiency of the device. In this work, an interface dipole with -CF 3 end group is anchored to the NiO x /PVK interface, leading to a more matched energy level structure and greatly reducing the energy barrier at the NiO x /PVK interface. Moreover, the addition of Si-CF 3 significantly improves the conductivity of NiO x and blunts the defects to large extent. The dipole interlayer significantly improves the built-in electric field and thus increases the photovoltage . Ultimately, the modified device achieves a score of 19.58% efficiency, much better than 17.98% of the control device.