Semiconducting Perovskites (2-XC6H4C2H4NH3)2SnI4 (X = F, Cl, Br): Steric Interaction between the Organic and Inorganic Layers
- 25 February 2003
- journal article
- research article
- Published by American Chemical Society (ACS) in Inorganic Chemistry
- Vol. 42 (6), 2031-2039
- https://doi.org/10.1021/ic0261474
Abstract
Two new semiconducting hybrid perovskites based on 2-substituted phenethylammonium cations, (2-XC6H4C2H4NH3)2SnI4 (X = Br, Cl), are characterized and compared with the previously reported X = F compound, with a focus on the steric interaction between the organic and inorganic components. The crystal structure of (2-ClC6H4C2H4NH3)2SnI4 is solved in a disordered subcell [C2/m, a = 33.781(7) Å, b = 6.178(1) Å, c = 6.190(1) Å, β = 90.42(3)°, and Z = 2]. The structure is similar to the known (2-FC6H4C2H4NH3)2SnI4 structure with regard to both the conformation of the organic cations and the bonding features of the inorganic sheet. The (2-BrC6H4C2H4NH3)2SnI4 system adopts a fully ordered monoclinic cell [P21/c, a = 18.540(2) Å, b = 8.3443(7) Å, c = 8.7795(7) Å, β = 93.039(1)°, and Z = 2]. The organic cation adopts the anti conformation, instead of the gauche conformation observed in the X = F and Cl compounds, apparently because of the need to accommodate the additional volume of the bromo group. The steric effect of the bromo group also impacts the perovskite sheet, causing notable distortions, such as a compressed Sn−I−Sn bond angle (148.7°, as compared with the average values of 153.3 and 154.8° for the fluoro and chloro compounds, respectively). The optical absorption features a substantial blue shift (lowest exciton peak: 557 nm, 2.23 eV) relative to the spectra of the fluoro and chloro compounds (588 and 586 nm, respectively). Also presented are transport properties for thin-film field-effect transistors (TFTs) based on spin-coated films of the two hybrid semiconductors.Keywords
This publication has 29 references indexed in Scilit:
- Structurally Tailored Organic−Inorganic Perovskites: Optical Properties and Solution-Processed Channel Materials for Thin-Film TransistorsChemistry of Materials, 2001
- Preparation and characterization of [H3N(CH2)6NH3]PbI4 and similar compounds with a layered perovskite structureJournal of Materials Chemistry, 2000
- Effect of Thermal Annealing on the Optical and Morphological Properties of (AETH)PbX4 (X = Br, I) Perovskite Films Prepared Using Single Source Thermal AblationChemistry of Materials, 1999
- Some new organic-inorganic hybrid semiconductors based on metal halide units: structural, optical and related propertiesAdvanced Materials for Optics and Electronics, 1999
- Low-Voltage Organic Transistors on Plastic Comprising High-Dielectric Constant Gate InsulatorsScience, 1999
- Refinement of Twinned Structures with SHELXL97Acta crystallographica Section B, Structural science, crystal engineering and materials, 1998
- Conformational Preferences of 2-Phenethylamines. A Computational Study of Substituent and Solvent Effects on the Intramolecular Amine−Aryl Interactions in Charged and Neutral 2-PhenethylaminesJournal of the American Chemical Society, 1997
- Synthesis, Crystal Structure, and Optical and Thermal Properties of (C4H9NH3)2MI4 (M = Ge, Sn, Pb)Chemistry of Materials, 1996
- Conducting tin halides with a layered organic-based perovskite structureNature, 1994
- Dielectric confinement effect on excitons in-based layered semiconductorsPhysical Review B, 1992