Characteristics of Y2O3 powders prepared by solution combustion synthesis in the light of a new thermodynamic approach

The influence of urea, beta-alanine and glycine on combustion synthesized Y2O3 powders was studied. Standard enthalpies of reactions suggested that the heat released from combustion reactions increases from urea (-1778 kJ/mol) to glycine (-1934 kJ/mol) and then to beta-alanine (-1995 kJ/mol). Since the heat released during combustion reactions is generated at different rates, we suggested the use of a new concept heat generation velocity - in order to explain the different characteristics of Y2O3 powders. Urea had the smallest heat generation velocity (0.4 kJ/s), therefore the resulted powder was amorphous. In the case of beta-alanine, the higher heat generation velocity (0.7 kJ/s) led to the formation of nanocrystalline (5 nm) Y2O3 having a surface area of 36 m(2)/g. Glycine triggered the combustion reaction with the highest heat generation velocity (3.9 kJ/s). Therefore the resulted Y2O3 had the largest crystallite size (21 nm) and the smallest surface area (19 m(2)/g). (C) 2014 Elsevier Ltd and Techna Group S.r.l. All rights reserved.