Manipulation of the Buried Interface for Robust Formamidinium‐based Sn−Pb Perovskite Solar Cells with NiO_xHole‐Transport Layers

Abstract: Low band gap tin‐lead perovskite solar cells (Sn−Pb PSCs) are expected to achieve higher efficiencies than Pb‐PSCs and regarded as key components of tandem PSCs. However, the realization of high efficiency is challenged by the instability of Sn2+ and the imperfections at the charge transfer interfaces. Here, we demonstrate an efficient ideal band gap formamidinium (FA)‐based Sn−Pb (FAPb0.5Sn0.5I3) PSC, by manipulating the buried NiOx/perovskite interface with 4‐hydroxyphenethyl ammonium halide (OH‐PEAX, X=Cl−,… Show more

“…The change in electron cloud density may be attributed to the fact that the nitrogen in –NH 2 and oxygen in –OH with lone pairs of electrons can coordinate with the uncoordinated Sn 4+ in SnO 2 , which induces electron transfer from nitrogen and oxygen elements in HAL to SnO 2 . 34,35 The result of Sn 3d spectra confirms the existence of interaction between HAL and SnO 2 . From the O 1s spectra in Fig.…”

Enhanced performance of perovskite solar cells via a bilateral electron-donating passivator as a molecule bridge

“…The change in electron cloud density may be attributed to the fact that the nitrogen in –NH 2 and oxygen in –OH with lone pairs of electrons can coordinate with the uncoordinated Sn 4+ in SnO 2 , which induces electron transfer from nitrogen and oxygen elements in HAL to SnO 2 . 34,35 The result of Sn 3d spectra confirms the existence of interaction between HAL and SnO 2 . From the O 1s spectra in Fig.…”

Enhanced performance of perovskite solar cells via a bilateral electron-donating passivator as a molecule bridge

“…Additionally, the ABABr interface modification leads to significant improvements in perovskite film morphology, crystallization, and band alignment. More recently, NiO x NCs were also introduced into the low band gap tin-lead perovskite solar cells (Sn-Pb PSCs) system by Zhou et al [67] By manipulating the buried NiO x /perovskite interface with OH-PEAX (4-hydroxyphenethyl ammonium halide, X = Cl À , Br À , or I À ) interlayer, the film quality of Sn-Pb based perovskite has been improved, resulting in the reducing of the surface defects and the improving of the energy matching. Benefitting from these, a PCE of 20.53 % is acquired for Sn-Pb PSCs, which is the highest PCE of Sn-Pb PSCs based on NiO x NCs.…”

Dopant‐free NiO_x Nanocrystals: A Low‐cost and Stable Hole Transport Material for Commercializing Perovskite Optoelectronics

“…Introducing the tailored molecules to the interface between the perovskite layer and HTL is a simple strategy to reduce the defects of the perovskite surface, inhibit the redox reaction at the interface, modify the optoelectronic properties of NiO x film, and adjust the morphology of perovskite. [17,51,[54][55] Yang et al [29] reported efficient PSCs based on the modified NiO x by diethanolamine (DEA) with hydroxy and amine functional groups. The DEA could strongly interact with both NiO x and perovskite by Ni‧‧‧N, and Pb‧‧‧O interactions, resulting in improved perovskite film quality.…”

Recent Progress of Inorganic Hole‐Transport Materials for Perovskite Solar Cells^†