A rapid solvothermal synthesis of cerium oxide hollow spheres and characterization

An easy and size controlled solvothermal synthesis of CeO2 hollow spheres is still a challenge in the area of materials synthesis. Here, CeO2 hollow spheres have been synthesized using PVA500# as a surfactant via solvothermal reaction followed by calcinations. The size of CeO2 hollow spheres could be controlled from 500 to 150 nm by changing the amounts of Ce(NO3)3·6H2O and PVA500#. The possible growth mechanism of CeO2 hollow sphere was explained. The CO oxidation catalytic activity of the CeO2 hollow spheres were superior to that of the commercial CeO2 powder due to the high specific surface area and small crystallite size.

Graphical abstractA rapid and easy way to prepare CeO2 hollow sphere with 150–500 nm in diameter was successfully achieved by solvothermal reaction. The prepared particles showed hollowness due to Ostwald ripening process. An improved catalytic activity was observed and discussed.Figure optionsDownload full-size imageDownload as PowerPoint slideHighlightsA rapid synthesis of CeO2 hollow spheres with diameter size from 15 to 500 nm. ► Cheap surfactant was used to prepare hollow spheres. ► Effect of temperature and surfactant ratio were investigated. ► Systematic characterization by XRD, FESEM, TEM, TG, FTIR and UV. ► CO oxidation analysis results showed better catalytic activity.