화학공학소재연구정보센터
Inorganic Chemistry, Vol.58, No.9, 6544-6549, 2019
Two Heteromorphic Crystals of Antimony-Based Hybrids Showing Tunable Optical Band Gaps and Distinct Photoelectric Responses
Organic-inorganic hybrid perovskites, most markedly CH3NH3PbI3, have attracted extensive interest because of their potential use in optoelectronic and photovoltaic applications. Nevertheless, the toxicity of lead restricts their further application. Here, we successfully synthesized two lead-free heteromorphic hybrids, (C7H18N2O)(3)Sb4I18 center dot H2O (1) and (C7H18N2O)Sb2I8 center dot H2O (2, C7H18N2O2+ is N-aminopropylmorpholinium), both of which belong to the zero-dimensional tetranuclear perovskite-like structure. However, the inorganic [Sb4I18] cluster of 1 adopts a tetragonal topology, while 2 features the distorted [Sb4I16] motif; this disparity leads to a significant distinction between their electronic structures as well as an optical band gap (E-g). Their absorption cutoffs are measured to be 708 nm (for 1, E-g = 1.71 eV) and 578 nm (for 2, E-g = 2.11 eV), respectively. In particular, 1 exhibits a stronger photoelectric response in a wider optical region compared to that of 2, and the "on/off" ratio of conductivity of 1 is estimated to similar to 300 under illumination. Density functional theory calculation discloses that different inorganic motifs make greater contributions to their electronic structure and photoelectric response. It is believed that the heteromorphic method allows a potential pathway for construction of new lead-free hybrid materials as light absorbers for photoelectric application.