Abstract
BiMnO3 exhibit multiferroic properties, which attract much attention due to numerous potential applications. The most well-investigated and traditional techniques for synthesizing this material include high-pressure and high-temperature treatment. In this way, soft chemistry synthesis of BiMnO3 is desirable. Even though the formation of BiMnO3 at ambient pressure is not possible according to the phase diagram, many scientific groups are focused on solving this problem. In the present work, we have tested four soft chemistry routes, namely hydrothermal route, two gel methods, and coprecipitation for synthesizing BiMnO3 from Cl– and NO3–-containing solutions at ambient pressure in the temperature range of 200–800°C, and none resulted in the formation of BiMnO3. The experiment showed that under hydrothermal conditions manganese and bismuth oxides remain unreacted, and the other tested methods produce Bi2Mn4O10 and Bi12MnO20 instead. The formation of Bi2Mn4O10 and Bi12MnO20 from Cl–-containing solutions occurs with BiOCl being formed as an intermediate phase.
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