Inorganic Chemistry, Vol.41, No.8, 2134-2145, 2002
Intercalated organic-inorganic perovskites stabilized by fluoroaryl-aryl interactions
Crystals of several new hybrid tin(II) iodide-based perovskites, involving 2,3,4,5,6- pentafluorophenethylammonium or phenethylammonium cation bilayers and intercalated aryl or perfluoroaryl molecules, were grown by slow evaporation of a methanol solution containing the hybrid perovskite and the intercalating species. The (C6F5C2H4NH3)(2)Snl(4).(C6H6) structure was solved at -75 degreesC in a monoclinic C2/c subcell [a = 41.089(12) (A) over circle, b = 6.134(2) (A) double under dot, c = 12.245(3) (A) over circle, beta = 94,021(5)degrees, Z = 41 and consists of sheets of corner-sharing distorted Snl(6) octahedra separated by bilayers of pentafluorophenethylammonium cations. The intercalated benzene molecules form a single well-ordered layer interposed between adjacent fluoroaryl cation layers, The corresponding hybrid with an unfluorinated organic cation and fluorinated intercalating molecule, (C6H5C2H4NH3)(2)Snl(4).(C6F6), is isostructural [a = 40.685(4) (A) over circle, b = 6.0804(6) (A) over circle, c = 12.163(l) (A) over circle, beta = 93.136(2)degrees, Z = 4]. For each intercalated system, close C...C contacts (3.44-3.50 (A) over circle) between the aromatic cation and the intercalated molecule are indicative of a significant face-to-face interaction, similar to that found in the complex C6H6.C6F6. Crystal growth runs with the organic cation and prospective intercalating molecule either both fluorinated or both unfluorinated did not yield stable intercalated compounds, demonstrating the significance of fluoroaryl-aryl interactions in the current intercalated structures. Thermal analysis of (C6F5C2H4NH3)(2)Snl(4).(C6H6) and (C6H5C2H4NH3)(2)Snl(4).(C6F6) crystals yields, in addition to the characteristic transitions of the parent perovskite, enclothermic transitions [12,6(5) and 32.1(8) kJ/mol, respectively] with an onset at 145 degreesC and a weight loss corresponding to the complete loss of the intercalated molecule, The relatively high deintercalation temperature (well above the boiling point of benzene and hexafluorobenzene) demonstrates the usefulness of the hybrid perovskites in providing a stable framework for the examination of the fluoroaryl-aryl interaction, as well as the potential importance of this interaction in tailoring new hybrid perovskites, UV-vis absorption measurements on (C6H5C2H4NH3)(2)Snl(4).(C6F6) thin films indicate a small reversible wavelength shift to higher energy for the tin(II) iodide framework exciton peak (with respect to that of the parent perovskite spectrum), from 608(2) nm [2.04 eV] to 595(2) nm [2,08 eV], and a corresponding shift in the band edge position. This spectral shift can most reasonably be attributed to subtle structural changes induced in the tin(II) iodide sheets by the intercalated hexafluorobenzene molecules.