Topotactic, Vapor-Phase, In Situ Monitored Formation of Ultrathin, Phase-Pure 2D-on-3D Halide Perovskite Surfaces.
Sujit KumarVinayaka Harshothama DamleTatyana BendikovAnat ItzhakMichael ElbaumKatya RechavLothar HoubenYaakov TischlerDavid CahenPublished in: ACS applied materials & interfaces (2023)
Two-dimensional (2D) halide perovskites, HaPs, can provide chemical stability to three-dimensional (3D) HaP surfaces, protecting them from exposure to ambient species and from reacting with contacting layers. Both actions occur with 2D HaPs, with the general stoichiometry R 2 PbI 4 (R: long or bulky organic amine) covering the 3D ones. Adding such covering films can also boost power conversion efficiencies of photovoltaic cells by passivating surface/interface trap states. For maximum benefit, we need conformal ultrathin and phase-pure ( n = 1) 2D layers to enable efficient tunneling of photogenerated charge carriers through the 2D film barrier. Conformal coverage of ultrathin (<10 nm) R 2 PbI 4 layers on 3D perovskites is challenging with spin coating; even more so is its upscaling for larger-area devices. We report on vapor-phase cation exchange of the 3D surface with the R 2 PbI 4 molecules and real-time in situ growth monitoring by photoluminescence (PL) to determine limits for forming ultrathin 2D layers. We characterize the 2D growth stages, following the changing PL intensity-time profiles, by combining structural, optical, morphological, and compositional characterizations. Moreover, from quantitative X-ray photoelectron spectroscopy (XPS) analysis on 2D/3D bilayer films, we estimate the smallest width of a 2D cover that we can grow to be <5 nm, roughly the limit for efficient tunneling through a (semi)conjugated organic barrier. We also find that, besides protecting the 3D against ambient humidity-induced degradation, the ultrathin 2D-on-3D film also aids self-repair following photodamage.
Keyphrases
- solar cells
- room temperature
- high efficiency
- high resolution
- perovskite solar cells
- photodynamic therapy
- air pollution
- metal organic framework
- particulate matter
- single molecule
- healthcare
- reduced graphene oxide
- affordable care act
- cell cycle arrest
- high glucose
- biofilm formation
- ionic liquid
- cystic fibrosis
- computed tomography
- oxidative stress
- quantum dots