Abstract
We report on the effects of reactive conditions on the formation of BT nanoparticles via hydrothermal process with a focus on their atomic-scale surface microstructures and structural defects characterized by HRTEM. The results showed that large Ba/Ti molar ratios in the precursors could lead to large particles with a cubic morphology. Smaller particles with a weaker agglomeration behavior were observed in the products synthesized via solvothermal process using ethylene glycol (EG) as reaction medium, in comparison to using either pure water or water-EG mixed solution as reactive medium. A terrace-ledge-kink surface structure and structural defects such as anti-phase boundaries (APBs) and edge dislocations with Burger's vector of or were observed at the edges of the nanoparticles. The {110} surfaces were found to be reconstructed and composed of the corners bound by the {100} mini-faces. APBs near the edges of BT nanoparticles were formed by the intersection of two crystalline parts with displacement deviation from each other by
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