6533b826fe1ef96bd12846d5

RESEARCH PRODUCT

Distortions of [Sb2Cl10]4– Bioctahedra and Phase Transitions in the Chloroantimonate(III) (C3H5NH3)2[SbCl5]·(C3H5NH3)Cl

Maciej BujakBartosz ZarychtaJacek Zaleski

subject

Phase transitionCrystallographycrystal structurechloroantimonates(III)octahedral distortionsHydrogen bondChemistryGeneral ChemistryCrystal structurehydrogen bondingphase transitions

description

Bis(allylammonium)pentachloroantimonate(III) - allylammonium chloride, (C3H5NH3)2[SbCl5] · (C3H5NH3)Cl, belongs to the chloroantimonate(III) organic-inorganic salts family. The DSC studies of this compound showed two anomalies at 181 K and at 223 K. Both are associated with phase transitions, which mainly occur due to ordering-disordering processes of the organic cations. Between 181 and 223 K the structure is incommensurate. The crystal structure was determined at 298 and 86 K. At both temperatures the crystal structure consists of (C3H5NH3)+ cations, anionic distorted [Sb2Cl10]4− units and isolated Cl− ions. In the room-temperature phase two out of three, and in the low-temperature phase two out of six allylammonium cations were found to be disordered. The deformations of the [Sb2Cl10]4− moieties in both phases are discussed and explained by the deviation of the SbIII 5s electron lone pair from its spherical symmetry and the influence of N-H···Cl hydrogen bonds, which join together the organic and inorganic sublattices.

yearjournalcountryeditionlanguage
2007-01-01Zeitschrift Fur Naturforschung Section B = A Journal of Chemical Sciences
10.1515/znb-2007-0107https://doi.org/10.1515/znb-2007-0107