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3D In Situ ToF‐SIMS Imaging of Perovskite Films under Controlled Humidity Environmental Conditions
Author(s) -
Lin WeiChun,
Chang HsunYun,
Abbasi Kevin,
Shyue JingJong,
Burda Clemens
Publication year - 2017
Publication title -
advanced materials interfaces
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.671
H-Index - 65
ISSN - 2196-7350
DOI - 10.1002/admi.201600673
Subject(s) - materials science , secondary ion mass spectrometry , x ray photoelectron spectroscopy , relative humidity , analytical chemistry (journal) , humidity , perovskite (structure) , moisture , sputtering , chemical engineering , ion , nanotechnology , thin film , chemistry , composite material , environmental chemistry , physics , organic chemistry , engineering , thermodynamics
Since CH 3 NH 3 PbI 3 perovskites are discovered as a viable active material for next‐generation photovoltaic devices, their instability in humid environments is a constant challenge. Therefore, understanding the exact spatially resolved degradation process is a crucial need before being able to improve the stability and durability of these exceptional materials. In this work, it is demonstrated that the CH 3 NH 3 PbI 3 perovskite will eventually degrade irreversibly at high humidity through a slow leaching and vaporization process of CH 3 NH 2 . Deuterium oxide (D 2 O) is used as a humidity source instead of H 2 O to distinguish the exogenous water diffusing into the perovskite from moisture embedded during sample fabrication. The degradation process of CH 3 NH 3 PbI 3 perovskite is examined in situ by using time‐of‐flight secondary ion mass spectrometry (ToF‐SIMS) and an argon ion cluster beam for layer‐by‐layer in situ sputtering and then compared to their corresponding solar cell performances. 3D images are constructed from the layer‐by‐layer spatially resolved elemental distribution analysis and the D 2 O moisture penetration through the sample. It is observed that the H/D exchange on the organic methylammonium ion is the first indication for moisture uptake in a given volume element. The intermediate products of interaction with moisture are also analyzed by ToF‐SIMS and X‐ray photoelectron spectroscopy. The initial products of this deuterium exchange reaction are CH 3 NH 2 D, CH 3 NHD 2 , and CH 3 ND 3 . In the following, the D 2 O molecule stepwise replaces the methylammonium, which leads to evaporation of the organic molecules and eventually to erosion of the perovskite along with drastic changes in morphology, crystallography, and photovoltaic performance.

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