Progressive Structural Complexity in Ferroelectric 1,2,4-Triazolium Hexabromoantimonate(III): Interplay of "Order-Disorder" and "Displacive" Contributions to the Structural Phase Transitions.
Michał ChańskiAgata BiałońskaRyszard JakubasMagdalena RokJan Kazimierz ZarebaRafał JanickiPiotr DurlakAnna Piecha-BisiorekPublished in: The journal of physical chemistry letters (2023)
Halobismuthates(III) and haloantimonates(III) with the R 3 MX 6 chemical composition create a new and broadly unexplored class of ferroelectric compounds. In this paper, we report the haloantimonate(III) ferroelectric comprising an aromatic (1,2,4-triazolium) cation, i.e., (C 2 N 3 H 4 ) 3 [SbBr 6 ] ( TBA ). Temperature-resolved structural and spectroscopic studies indicate that TBA undergoes two solid-solid phase transitions between tetragonal [ P 4 2 / m (I)] and monoclinic [ P 2 1 / n (II) and P 2 1 (III)] phases. TBA experiences a paraelectric-ferroelectric phase transition at 271/268 K (II-III) driven by "order-disorder" and "displacive" molecular mechanisms. The ferroelectric properties of phase III have been confirmed by hysteresis loop measurement, and additionally, the acentric order has been further supported by second-harmonic generation measurements. Insight into the molecular origins of the ferroelectric polarization was provided by periodic ab initio calculations using the Berry phase approach at the density functional theory (DFT-D3) method level employed for calculations of spontaneous polarization.