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Structural effects on the luminescence properties of CsPbI3 nanocrystals.

ABSTRACT: Metal halide perovskite nanocrystals (NCs) are promising for photovoltaic and light-emitting applications. Due to the softness of their crystal lattice, structural modifications have a critical impact on their optoelectronic properties. Here we investigate the size-dependent optoelectronic properties of CsPbI3 NCs ranging from 7 to 17 nm, employing temperature and pressure as thermodynamic variables to modulate the energetics of the system and selectively tune the interatomic distances. By temperature-dependent photoluminescence spectroscopy, we have found that luminescence quenching channels exhibit increased non-radiative losses and weaker exciton-phonon coupling in bigger particles, in turn affecting the luminescence efficiency. Through pressure-dependent measurements up to 2.5 GPa, supported by XRD characterization, we revealed a NC-size dependent solid-solid phase transition from the γ-phase to the δ-phase. Importantly, the optical response to these structural changes strongly depends on the size of the NC. Our findings provide an interesting guideline to correlate the size and structural and optoelectronic properties of CsPbI3 NCs, important for engineering the functionalities of this class of soft semiconductors.

SUBMITTER: Vukovic O 

PROVIDER: S-EPMC10035506 | biostudies-literature | 2023 Mar

REPOSITORIES: biostudies-literature

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Structural effects on the luminescence properties of CsPbI<sub>3</sub> nanocrystals.

Vukovic Olivera O   Folpini Giulia G   Wong E Laine EL   Leoncino Luca L   Terraneo Giancarlo G   Albaqami Munirah D MD   Petrozza Annamaria A   Cortecchia Daniele D  

Nanoscale 20230323 12

Metal halide perovskite nanocrystals (NCs) are promising for photovoltaic and light-emitting applications. Due to the softness of their crystal lattice, structural modifications have a critical impact on their optoelectronic properties. Here we investigate the size-dependent optoelectronic properties of CsPbI<sub>3</sub> NCs ranging from 7 to 17 nm, employing temperature and pressure as thermodynamic variables to modulate the energetics of the system and selectively tune the interatomic distance  ...[more]

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