Dry Mechanochemical Synthesis of Highly Luminescent, Blue and Green Hybrid Perovskite Solids

A simple method to obtain bright photoluminescent wide bandgap mixed‐halide 3D perovskites is reported. The materials are prepared by dry mechanochemical synthesis (ball‐milling) starting from neat binary precursors, and show enhanced photoluminescence upon the addition of an adamantane derivative i...

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Bibliographic Details
Published in:Advanced optical materials 2020-02, Vol.8 (4), p.n/a
Main Authors: Martínez‐Sarti, Laura, Palazon, Francisco, Sessolo, Michele, Bolink, Henk J.
Format: Article
Language:English
Subjects:
Amantadine
blue‐emitting perovskites
Crystal structure
Materials science
mechanochemical synthesis
Optics
passivation
Perovskites
Photoluminescence
Precursors
Structural analysis
Synthesis
Visible spectrum
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Summary:A simple method to obtain bright photoluminescent wide bandgap mixed‐halide 3D perovskites is reported. The materials are prepared by dry mechanochemical synthesis (ball‐milling) starting from neat binary precursors, and show enhanced photoluminescence upon the addition of an adamantane derivative in the precursors' mixture. The structural characterization suggests that the additive does not participate in the crystal structure of the perovskite, which remains unvaried even with high loading of amantadine hydrochloride. By simple stoichiometric control of the halide precursors, the photoluminescence can be finely tuned from the UV to the green part of the visible spectrum. Photoluminescence quantum yields as high as 29% and 5% have been obtained for green‐ and blue‐emitting perovskite solids, even at very low excitation densities. Bright photoluminescent wide bandgap mixed‐halide 3D perovskites are prepared by dry mechanochemical synthesis starting from neat binary precursors, and show enhanced photoluminescence upon the addition of an adamantane derivative in the precursors' mixture. Photoluminescence quantum yields as high as 29% and 7% have been obtained for green‐ and blue‐emitting perovskite solids.
ISSN:2195-1071
2195-1071
DOI:10.1002/adom.201901494