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NiO as Hole Transporting Layer for Inverted Perovskite Solar Cells: A Study of X‐Ray Photoelectron Spectroscopy

Pronoy Nandi, Hyoungmin Park, Sooun Shin, Jin‐Wook Lee, Jin Young Kim, Min Jae Ko, Hyun Suk Jung, Nam‐Gyu Park, Hyunjung Shin

2024Advanced Materials Interfaces72 citationsDOIOpen Access PDF

Abstract

Abstract Hygroscopic and acidic nature of organic hole transport layers (HTLs) insisted to replace it with metal oxide semiconductors due to their favorable charge carrier transport with long chemical stability. Apart from large direct bandgap and high optical transmittance, ionization energy in the range of −5.0 to −5.4 eV leads to use NiO as HTL due to good energetic matching with lead halide perovskites. Analyzing X‐ray photoelectron spectroscopic (XPS) data of NiO, it is speculated that p‐type conductivity is related to the NiOOH or Ni 2 O 3 states in the structure and the electrical conductivity can be modified by altering the concentration of nickel or oxygen vacancies. However, it is difficult to separate the contribution from nonlocal screening, surface effect and the presence of vacancy induced Ni 3+ ion due to very strong satellite structure in the Ni 2 p XPS spectrum of NiO. Thus, an effective approach to analyze the NiO XPS spectrum is presented and the way to correlate the presence of Ni 3+ with the conductivity results which will help to avoid overestimation in finding the oxygen‐rich/deficient conditions in NiO.

Topics & Concepts

Non-blocking I/OX-ray photoelectron spectroscopyMaterials scienceNickel oxideBand gapPerovskite (structure)ConductivityNickelAnalytical Chemistry (journal)Photoemission spectroscopySemiconductorOxideBinding energyChemical engineeringOptoelectronicsPhysical chemistryAtomic physicsCrystallographyChemistryCatalysisMetallurgyPhysicsEngineeringBiochemistryChromatographyPerovskite Materials and ApplicationsConducting polymers and applicationsOrganic Electronics and Photovoltaics
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