DESIGN OF SOLID OXIDE STRUCTURE ON THE COMPOSITE CATHODE FOR IT-SOFC.

Autor: Kamal, Dianta Mustofa, Susanto, Iwan, Subarkah, Rahmat, Zainuri, Fuad, Belyamin, Rahmiati, Tia, Permana, Sulaksana, Subardi, Adi, Yen-Pei Fu
Předmět:
Zdroj: Eastern-European Journal of Enterprise Technologies; 8/7/2021, Vol. 112 Issue 4/5, p6-11, 6p
Abstrakt: Solid oxide structure of the cobalt-free composite has been exploited as a new cathode material for IT-SOFCs. The composite model system was synthesized using the metallic oxide material, which was formed by a solid-state reaction technique. The generation of the Sm0.5Sr0.25Ba0.25FeO3-δ (SSBF) model system was carried out during the sintering process. The weight loss and oxygen content were investigated by thermal gravimetric analysis (TG). Meanwhile, X-ray diffraction characterized the structure of the composite and thermal conductivity tested the conductivity properties. The results showed that the structure of the SSBF composite demonstrated the perovskite single phase leading to the structural design. The decomposition and evaporation of the constituent elements of the composite corresponded to weight losses during the constructing process. The oxygen content of the model system was 2.98 after the calcination process. The electrical conductivity value reached 2 S cm-1 at 400°C and increases to a maximum of 7.5 S cm-1 at 710°C. The metallic element played to generating the conductive behavior at the low temperature, while the ionic structure acted as elevated temperature. So, mixed ionic and electric conductors (MIEC) were employed comprehensively for creating the conductive properties. Based on the structure and conductivity results, the SSBF composite has a good chance as an alternative cathode material with a perovskite single phase for future TI-SOFCs applications. [ABSTRACT FROM AUTHOR]
Databáze: Complementary Index