Decoupled molecular and inorganic framework dynamics in CH 3 NH 3 PbCl 3

The organic-inorganic lead-halide perovskites are composed of organic molecules imbedded in an inorganic framework. The compounds with general formula CH NH Pb (MAPb ) display large photovoltaic efficiencies for halogens Cl, Br, and I in a wide variety of sample geometries and preparation methods. T...

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Veröffentlicht in:Physical review materials 2019-12, Vol.3 (12), Article 125406
Hauptverfasser: Songvilay, M, Wang, Zitian, Sakai, V Garcia, Guidi, T, Bari, M, Ye, Z-G, Xu, Guangyong, Brown, K L, Gehring, P M, Stock, C
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Sprache:eng
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Zusammenfassung:The organic-inorganic lead-halide perovskites are composed of organic molecules imbedded in an inorganic framework. The compounds with general formula CH NH Pb (MAPb ) display large photovoltaic efficiencies for halogens Cl, Br, and I in a wide variety of sample geometries and preparation methods. The organic cation and inorganic framework are bound by hydrogen bonds that tether the molecules to the halide anions, and this has been suggested to be important to the optoelectronic properties. We have studied the effects of this bonding using time-of-flight neutron spectroscopy to measure the molecular dynamics in CH NH PbCl (MAPbCl ). Low-energy high-resolution neutron backscattering reveals thermally activated molecular dynamics with a characteristic temperature of ~95 K. At this same temperature, higher-energy neutron spectroscopy indicates the presence of an anomalous broadening in energy (reduced lifetime) associated with the molecular vibrations. By contrast, neutron powder diffraction shows that a spatially long-range structural phase transitions occurs at 178 K (cubic → tetragonal) and 173 K (tetragonal → orthorhombic). The large difference between these two temperature scales suggests that the molecular and inorganic lattice dynamics in MAPbCl are actually decoupled. With the assumption that underlying physical mechanisms do not change with differing halogens in the organic-inorganic perovskites, we speculate that the energy scale most relevant to the photovoltaic properties of the lead-halogen perovskites is set by the lead-halide bond, not by the hydrogen bond.
ISSN:2475-9953
2475-9953
DOI:10.1103/PhysRevMaterials.3.125406