Abstract
One-dimensional BaTiO3 nanomaterials have important applications in nano-ferroelectric devices, and their high-quality synthesis is a hotspot in the field of chemistry of materials. In this work, single-crystalline perovskite BaTiO3 nanorods have been prepared by a two-step molten salt method. The conversion process and the topochemical mechanism were investigated based on XRD, DSC, SEM and TEM analysis. Firstly, one dimensional BaTi2O5 nanocrystallites have been synthesized in a molten environment and the self-polarization effect is responsible for the growth direction of [0 2 0]. Then, using these oriented BaTi2O5 monoclinic nanorods as templates, BaTiO3 perovskite nanorods have been further constructed through the topochemical reaction, in which all edge-sharing [TiO6] octahedra converted into corner-sharing modes to obtain the minimum energy state. One-dimensional morphology of BaTiO3 can only be obtained at a low calcination temperature, because at a high temperature, it will decompose into nanoparticles. This topological method is facile and can be developed to construct other orientated functional materials.
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