1. Confinement Effects in Low-Dimensional Lead Iodide Perovskite Hybrids
- Author
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Jacobus Baas, Thomas Palstra, Hong-Hua Fang, Machteld E. Kamminga, Maria Antonietta Loi, Graeme R. Blake, Feliciano Giustino, Marina R. Filip, Solid State Materials for Electronics, and Photophysics and OptoElectronics
- Subjects
Diffraction ,Photoluminescence ,Materials science ,General Chemical Engineering ,CH3NH3PBX3 X ,Iodide ,EFFICIENT ,Crystal growth ,02 engineering and technology ,010402 general chemistry ,01 natural sciences ,HETEROJUNCTION SOLAR-CELLS ,Materials Chemistry ,CRYSTAL-STRUCTURE ,TRIHALIDE ,Physics::Chemical Physics ,Perovskite (structure) ,chemistry.chemical_classification ,OPTICAL-PROPERTIES ,General Chemistry ,021001 nanoscience & nanotechnology ,HALIDE PEROVSKITES ,0104 chemical sciences ,Crystallography ,chemistry ,Quantum dot ,Yield (chemistry) ,GROWTH ,SINGLE-CRYSTALS ,Density functional theory ,CRYSTALLIZATION ,0210 nano-technology - Abstract
We use a layered solution crystal growth technique to synthesize high-quality single crystals of phenylalkylammonium lead iodide organic/inorganic hybrid compounds. Single-crystal X-ray diffraction reveals low-dimensional structures consisting of inorganic sheets separated by bilayers of the organic cations. The shortest alkyls yield two-dimensional structures consisting of inorganic sheets of corner-sharing PbI6-octahedra. However, the longer alkyls induce both corner- and face-sharing of the PbI6-octahedra, and form new compounds. Density functional theory calculations including spin-orbit coupling show quantum confinement in two dimensions for the shorter alkyls, and in one dimension for the longer alkyls, respectively. The face-sharing PbI6-octahedra create a confinement leading to effectively one-dimensional behavior. These confinement effects are responsible for the observed peak shifts in photoluminescence for the different phenylalkylammonium lead iodide hybrids. Our results show how the connectivity of the octahedra leads to confinement effects that directly tune the optical band gap.
- Published
- 2016
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