Impacts of Decomposition Atmosphere on Surface Properties and Crystal Structure Characteristics of Praseodymia
Abstract
Praseodymia or praseodymium oxide PrO1.833 was prepared from praseodymium nitrate hydrate in different atmospheres of
gases oxygen, argon, and a mixture of oxygen and argon (1:1). The crystal structure and surface characteristics of
praseodymium oxide (PrO1.833 and PrO2) obtained as the final decomposition product were characterized by different techniques,
using surface adsorption–desorption of N2 (SBET), thermogravimetric analysis (TGA), and X-ray diffraction (XRD), the acidic
properties of praseodymium oxide PrO1.83 were tested by FTIR spectroscopy of adsorbed CO as a probe molecule. The results
indicate that the decomposition atmosphere affects the surface area, porosity, and crystal structure of the obtained oxides.
Oxygen atmosphere promotes the formation of PrO2, whereas Argon and Argon/oxygen atmosphere promote the formation of
PrO1.833 with larger surface area and improved mesoporosity. The non-stoichiometric oxide PrO1.833 displays different types of
surface hydroxyl groups and two different types of Lewis acid sites as indicated by CO adsorptions.