 Magnesium aluminum oxynotride, MGLON, has been gaining increasing interest in recent years due to its unique properties and potential applications. A systematic study on the synthesis of MGLON with tunable composition by using the combustion method was conducted. The AL-L2O3-MGL mixture was combusted in nitrogen gas and the effects of al-nitriding in oxidation by MGLO4, 2 on the exothermicity of the mixture, combustion kinetics, and phase composition of the combustion products were investigated. It was found that the MGLON lattice parameter could be controlled by varying the alone slash MGL2O4 ratio in the mixture, corresponding to the MGLO content in the combustion products. Furthermore, the limitation of the combustion temperature at 1650 degrees celsius resulted in obtaining sub-micron powders with a specific surface area of approximately 3.8 m slash g2. This article was authored by Tigranikoptsanian, Danil Abzalov, Dmitri Moskovskic, and others. We are article.tv, links in the description below.