4.3 Article

DFT Simulations as Valuable Tool to Support NMR Characterization of Halide Perovskites: the Case of Pure and Mixed Halide Perovskites

Journal

HELVETICA CHIMICA ACTA
Volume 104, Issue 5, Pages -

Publisher

WILEY-V C H VERLAG GMBH
DOI: 10.1002/hlca.202000231

Keywords

halide perovskites; NMR spectroscopy; periodic DFT calculations; structure elucidation

Funding

  1. Agence Nationale de la Recherche [ANR-18-CE05-0026]

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Solid state NMR spectroscopy is being used to characterize lead halide perovskites, with the help of Density Functional Theory to support the NMR characterization, especially for light nuclei. Accurate prediction of NMR responses for heavier nuclei like Pb-207 is more challenging, but there have been successful efforts to study mixed halide perovskite compounds for applications in solar cells and light emission.
Solid state NMR spectroscopy is swiftly emerging as useful tool to characterize the structure, composition and dynamic properties of lead halide perovskites. On the other hand, interpretation of solid state NMR signatures is often challenging, because of the potential presence of many overlapping signals in small range of chemical shifts, hence complicating the extraction of detailed structural features. Here, we demonstrate the reliability of periodic Density Functional Theory in providing theoretical support for the NMR characterization of halide perovskite compounds, considering nuclei with spin I=1/2. For light H-1 and C-13 nuclei, we predict NMR chemical shifts in good agreement with experiment, further highlighting the effects of motional narrowing. Accurate prediction of the NMR response of Pb-207 nuclei is comparably more challenging, but we successfully reproduce the downshift in frequency when changing the halide composition from pure iodine to pure bromine. Furthermore, we confirm NMR as ideal tool to study mixed halide perovskite compounds, currently at the limelight for tandem solar cells and color-tunable light emission.

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