Broad Photoluminescence and Second-Harmonic Generation in the Noncentrosymmetric Organic-Inorganic Hybrid Halide (C6H5(CH2)4NH3)4MX7•H2O (M = Bi, In, X = Br or I)

Recent discoveries in organic-inorganic metal halides reveal superior semiconducting and polarization properties. Herein, we report three organic-inorganic metal halides, (PBA)(4)BiBr7 center dot H2O, (PBA)(4)BiI7 center dot H2O, and (PBA)(4)InBr7 center dot H2O [(PBA)(+) = C6H5(CH2)(4)NH3+], with band gaps of similar to 3.52, similar to 2.29, and similar to 4.05 eV, respectively. They possess zero-dimensional structures containing the inorganic octahedra [MX6](3-) (M = Bi, In, X = Br, I) and unbound X- ions and crystallize in the C2 space group. (PBA)(4)BiI7 center dot H2O shows a second-harmonic-generation (SHG) response in the infrared region, approximately 1.3 times that of AgGaS2; (PBA)(4)BiBr7 center dot H2O and (PBA)(4)InBr7 center dot H2O show SHG responses in the ultraviolet region, approximately 0.4 and 0.6 times that of KH2PO4, respectively. The large SHG responses are attributed to the synergistic contribution of the octahedral distortion of [MX6](3-) (M = Bi, In, X = Br, I) and the ordered arrangement of the benzene ring-containing organic cation PBA(+). Upon ultraviolet and visible-light excitations at room temperature, (PBA)(4)BiBr7 center dot H2O, (PBA)(4)BiI7 center dot H2O, and (PBA)(4)InBr7 center dot H2O exhibit broad red-light luminescence with large Stokes shifts of 290, 237, and 360 nm, respectively, due to self-trapped exciton emission. All of these properties demonstrate that this series of metal halides are potential multifunctional optoelectronic materials.

Automated summary

Recent discoveries in organic-inorganic metal halides have revealed superior semiconducting and polarization properties. The structures of these metal halides are diverse and exhibit strong second-harmonic generation (SHG) responses, as well as broad red-light luminescence characteristics.