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Nucleation and crystallization of metal oxides from carbonates.

Metal oxides play an important role in catalysis, integrated circuit fabrication, and optical coatings. A common approach for obtaining these oxides is the thermal decomposition of solid precursor templates, among… Click to show full abstract

Metal oxides play an important role in catalysis, integrated circuit fabrication, and optical coatings. A common approach for obtaining these oxides is the thermal decomposition of solid precursor templates, among which metal carbonates are the most widely used ones. Despite the importance of the process, the atomic-scale mechanisms governing the transformation of such templates into oxides remain insufficiently understood. Using in situ transmission electron microscopy (TEM), we show that La2(CO3)3·8H2O and Ce2(CO3)3·8H2O undergo a multistep transformation: (i) dehydrogenation, (ii) decarbonization, and (iii) crystallization. Our observations reveal concurrent compositional and structural changes within the precursor templates during their conversion to oxides. These findings offer valuable insights into the crystallization of metal oxides, providing a basis for optimizing their properties for diverse technological applications.

Keywords: metal oxides; metal; nucleation crystallization; crystallization metal; oxides carbonates

Journal Title: Nanoscale
Year Published: 2025

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