Growth-Controlled Broad Emission in Phase-Pure Two-Dimensional Hybrid Perovskite Films

Two-dimensional hybrid metal halide perovskites (2D perovskites) are attractive for light-emitting devices and other applications because their emission is tunable across the visible spectrum. The emission profile of 2D perovskites can be broadened via a variety of mechanisms and is further complica...

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Bibliographic Details
Published in:Chemistry of materials 2021-09, Vol.33 (18), p.7290-7300
Main Authors: Kennard, Rhiannon M, Dahlman, Clayton J, Chung, Juil, Cotts, Benjamin L, Mikhailovsky, Alexander A, Mao, Lingling, DeCrescent, Ryan A, Stone, Kevin H, Venkatesan, Naveen R, Mohtashami, Yahya, Assadi, Sepanta, Salleo, Alberto, Schuller, Jon A, Seshadri, Ram, Chabinyc, Michael L
Format: Article
Language:English
Subjects:
Absorption
Crystals
Excitons
MATERIALS SCIENCE
Perovskites
Thin films
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Summary:Two-dimensional hybrid metal halide perovskites (2D perovskites) are attractive for light-emitting devices and other applications because their emission is tunable across the visible spectrum. The emission profile of 2D perovskites can be broadened via a variety of mechanisms and is further complicated by the presence of impurities. Here, the challenge of making phase-pure films in Ruddlesden–Popper phases [(A′)2(A) n−1B n X3n+1 structure] is overcome by using a single A/A′-site cation, ethylammonium (EA), whose optimal size also prohibits the formation of off-target phases. In the (EA)2(EA) n−1Pb n Br3n+1 family, the low-energy, broad emission observed in bulk crystals is reduced in spin-cast, polycrystalline films. This decrease in broad emission, attributed to phonon-mediated processes, is correlated with the strain in polycrystalline films that is observed by X-ray scattering. Photothermal deflection spectroscopy shows that strain also increases the electronic disorder near the free exciton absorbance. Broad emission in films can be recovered by slowing growth kinetics, which removes the strain acquired from spin-casting and increases the domain size. These results help extend the utility of 2D perovskites by suggesting design rules for the growth of thin films with the targeted phase and emission.
ISSN:0897-4756
1520-5002
DOI:10.1021/acs.chemmater.1c01641