[1] R MARCHAND, R PASTUSZAK, Y LAURENT et al. Structure cristalline de Nd2AlO3N. Détermination de L Ordre oxygène-azote par diffraction de neutrons. Revue Dechimie Minerale, 684(1982).
[2] R MARCHAND, F PORS, Y LAURENT. Préparation et caractérisation de nouveaux oxynitrures à structure perovskite. Revue Internationale des Hautes Températures et des Réfractaires, 11(1986).
[3] X ZHANG, X LIU, J YAN et al. Preparation and property of high entropy (La0.2Li0.2Ba0.2Sr0.2Ca0.2)TiO3 perovskite ceramics. Journal of Inorganic Materials, 379(2021).
[4] S LI, G SONG, Y ZHANG et al. Preparation and physical property of BTO-based multiferroic Ceramics. Journal of Inorganic Materials, 79(2022).
[5] A FUERTES. Metal oxynitrides as emerging materials with photocatalytic and electronic properties. Materials Horizons, 453(2015).
[6] R AGUIAR. Synthesis, Properties and Applications of AB(O,N)3 Oxynitride Perovskites(2009).
[7] W LI. Formability, Synthesis and Properties of Perovskite-type Oxynitrides(2015).
[8] S G EBBINGHAUS, R AGUIAR, A WEIDENKAFF et al. Topotactical growth of thick perovskite oxynitride layers by nitridation of single crystalline oxides. Solid State Sciences, 709(2008).
[9] J SEO, H NISHIYAMA, T YAMADA et al. Visible-light- responsive photoanodes for highly active, stable water oxidation. Angewandte Chemie International Edition, 8396(2018).
[10] D LI, L ZENG, B LI et al. Rapid synthesis of dielectric tantalum- based oxynitrides. Materials and Design(2020).
[11] Y I KIM, P M WOODWARD, K Z BABA-KISHI et al. Characterization of the structural, optical, and dielectric properties of oxynitride perovskites AMO2N (A=Sr, Ba, Ca; M=Ta, Nb). Materials Chemistry, 1267(2004).
[12] Y R ZHANG, Y MASUBUCHI, T MOTOHASHI et al. Hot isostatic press sintering and dielectric properties of SrTaO2N ceramics. Ceramics International, 3377(2013).
[13] D CHEN, D HABU, Y MASUBUCHI et al. Partial nitrogen loss in SrTaO2N and LaTiO2N oxynitride perovskites. Solid State Sciences, 2(2016).
[14] A HOSONO, Y MASUBUCHI, S KIKKAWA et al. Sintering behavior of dielectric SrTaO2N under high pressure of nitrogen. Ceramics International, 2737(2017).
[15] A RACHEL, S G EBBINGHAUS, M GÜNGERICH et al. Tantalum and niobium perovskite oxynitrides: synthesis and analysis of the thermal behaviour. Thermochim Acta, 134(2006).
[16] S J CLARKE, K A HARDSTONE, C W MICHIE et al. Rosseinsky. High-temperature synthesis and structures of perovskite and n=1 Ruddlesden-popper tantalum oxynitrides. Chemistry of Materials, 2664(2002).
[17] S K SUN, T MOTOHASHI, Y MASUBUCHI et al. Direct synthesis of SrTaO2N from SrCO3/Ta3N5 involving CO evolution. Journal of the European Ceramic Society, 4451(2014).
[18] D LI, C R ZHANG, B LI et al. Research progress in preparation of nitride ceramic materials by urea process. Aerospace Material Technology, 1(2011).
[19] M H WANG, H B ZHONG, Y C FAN et al. Spark plasma sintering of bioactive Ca2MgSi2O7 Ceramics. Journal of Inorganic Materials, 825(2017).
[20] D LI, W LI, C FASEL et al. Sinterability of the oxynitride LaTiO2N with perovskite-type structure. Journal of Alloys and Compounds, 567(2014).
[21] D LI, E G MORAES, P GUO et al. Rapid sintering of silicon nitride foams decorated with one-dimensional nanostructures by intense thermal radiation. Science and Technology of Advanced Materials(2014).
[22] D LI, Z SHEN. Rapid sintering of ceramics with gradient porous structure by asymmetric thermal radiation. Journal of the American Ceramic Society, 3631(2015).
[23] A HOSONO, S K SUN, Y MASUBUCHI et al. Additive sintering and post-ammonolysis of dielectric BaTaO2N oxynitride perovskite. Journal of the European Ceramic Society, 3341(2016).
[24] Y MASUBUCHI, F KAWAMURA, T TANIGUCHI et al. High pressure densi-fication and dielectric properties of perovskite-type oxynitride SrTaO2N. Journal of the European Ceramic Society, 1191(2015).
