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Dual Photoluminescence in Low-Temperature Phase of CsSnI<sub>3</sub> Nanocrystals.


ABSTRACT: The expression of metal lone-pair electrons is hypothesized to underpin many of the interesting properties of inorganic halide perovskite semiconductors. Recently, a stable low-temperature monoclinic polar phase was predicted for CsSnBr3 and CsSnI3, opening the possibility of direct investigation of a ferroelectric distorted structure compared to the undistorted structure. To date, there have been no experimental reports of such a structure in CsSnI3, and the low-temperature optical properties of CsSnI3 nanocrystals have remained unexplored. Here we report optical and structural evidence of a phase transition around 240 K in 8.9 nm CsSnI3 nanocrystals. Several changes in optical behavior occur below this transition point, including high-energy photoluminescence (PL) that emits concurrently with the exciton PL. The emergence of this high-energy PL is correlated with X-ray diffraction (XRD) and differential scanning calorimetry (DSC) supporting a phase transition from the orthorhombic structure between 240-200 K. Transient absorption measurements show an increase in the excited state lifetimes, i.e., slowed carrier cooling, at 200 K when photoexciting with photon energies above the high-energy state, consistent with slowed carrier cooling and emergence of high-energy PL. We hypothesize that the slowed carrier cooling is distinctive to this phase transition that modifies both the electronic and phonon structures that dictate excited-state carrier dynamics, and we discuss these changes.

SUBMITTER: Kluherz KT 

PROVIDER: S-EPMC12371897 | biostudies-literature | 2025 Aug

REPOSITORIES: biostudies-literature

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Dual Photoluminescence in Low-Temperature Phase of CsSnI&lt;sub&gt;3&lt;/sub&gt; Nanocrystals.

Kluherz Kyle T KT   Shelton Jacob L JL   Weadock Nicholas J NJ   Leick Noemi N   Sercel Peter C PC   Beard Matthew C MC  

Journal of the American Chemical Society 20250806 33


The expression of metal lone-pair electrons is hypothesized to underpin many of the interesting properties of inorganic halide perovskite semiconductors. Recently, a stable low-temperature monoclinic polar phase was predicted for CsSnBr<sub>3</sub> and CsSnI<sub>3</sub>, opening the possibility of direct investigation of a ferroelectric distorted structure compared to the undistorted structure. To date, there have been no experimental reports of such a structure in CsSnI<sub>3</sub>, and the low  ...[more]

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