Abstract: The present work aims to design and study novel functional materials with multiferroic properties required in electric applications, such as magnetic and magnetoresistive sensors, actuators, microwave electronic devices, phase shifters, mechanical actuators etc. Complex oxides BiFeO3 and Bi0,9La0,1FeO3 for analysis of its structural properties were synthesized as powders by sol-gel method. The size, shape, and degree of crystallinity of the formed nanoparticles can be changed by varying the temperature and the concentrations of the initial reactants and the stabilizer. This work is devoted to interrelation between composition of sol-gel BiFeO3 and Bi0,9La0,1FeO3 nanopowders and their nanostructural properties.
Title: Structural Properties of BiFeO3 and Bi0,9La0,1FeO3 Powders Synthesized by Sol-Gel Process
Authors: A. Semchenko, S. Khakhomov, V. Gaishun, D. Kovalenko, V. Sidsky, W. Strek, D. Hreniak
Engineering for Sustainable Future. INTER-ACADEMIA 2019, Vol. 101, pp. 113–118, Springer (2020)
Postprint: Structural Properties of BiFeO3 and Bi0,9La0,1FeO3 Powders Synthesized by Sol-Gel Process_INTER-ACADEMIA 2019