Hydrazine-nitrate combustion synthesis of BaCeO3 preceramic powders: structure, morphology and thermophysical properties

Abstract: In the present work, preceramic nanocrystallite barium cerate (BaCeO3) was successfully synthesized using the hydrazine-nitrate combustion method. Using carbon-free hydrazine (N2H4) as fuel significantly reduced the formation of carbon by-products. Characterization of the asreceived powders was performed by XRD, energy-dispersive X-ray spectroscopy (EDXS), scanning electron microscopy (SEM), simultaneous thermal analysis (DTA-TGA) and adsorptionstructural analysis (N2, 77 K). Thermophysical properties of the s… Show more

Mechanical, thermophysical and electrochemical properties of dense BaCeO3 ceramics sintered from hydrazine-nitrate combustion products

Mechanical, thermophysical and electrochemical properties of dense BaCeO3 ceramics sintered from hydrazine-nitrate combustion products

Synergistic role of Biomolecules and Bio-chelating agents in the sustainable development of an efficient BaCe0.97M0.03O3-δ (M = Sm, Gd) perovskite electrolyte for IT-SOFC

Facile solution combustion synthesis of mesoporous HfTiO4 as novel photoanode material with enhanced visible-light response