Wydział Chemii

Magdalena N. Rowinska

Oleksandr Korolevych

Adam Kabański

Dagmara Stefańska

Tamara Bednarchuk

Anna Piecha-Bisiorek

Anna Gągor

2025

Chemistry of Materials

37

7125-7135

10.1021/acs.chemmater.5c01183

Naukowa

Angielski

Artykuł

Organic–inorganic halide double perovskites with the A₂MM′X₆ composition are considered a more stable and environmentally friendly alternative to lead-based APbX₃ compounds (3D HOIPs). Herein, we report the synthesis, crystal structure, physicochemical characterization, and the results of density functional theory (DFT) calculations for a double-perovskite-related (piperidinium)₂[KBiBr₆]. Inorganic structure is built of 1D inorganic pillars composed of Bi(III)Br₆ octahedra face shared with trigonal KBr₆ antiprisms. It undergoes a room-temperature order–disorder phase transition at T_c = 300/303 K (cooling/heating), associated with molecular dynamics and formation of stable hydrogen-bond interactions. Dielectric relaxation in the vicinity of T_c indicates gradual ordering of piperidinium. The C2/m to P1− symmetry reduction leads to the formation of a switchable ferroelastic domain structure. The material shows purplish-blue photoluminescence from high-energy excitons and Bi(III) emission due to the electronic confinement along the inorganic pillars. DFT calculations of the density of states confirm that the electronic properties are governed by the electronic states of Bi(III)Br₆ octahedra and reveal that electron and hole migration occur between neighboring chains, being quenched along the inorganic part. The optical band gap E_g is 2.8 eV.

Anions, Cations, Halogens, Inorganic compounds, Phase transitions

CC-BY

http://dx.doi.org/10.1021/acs.chemmater.5c01183

https://www.acs.org/content/acs/en.html