La_ 1-xSr_xGa_ 1-yMg_yO_ 3-δ(LSGM)electrolyte material was synthesized by solid-state reaction method. The microstructure characteristics were tested via X-ray diffraction(XRD), scanning electron microcopy (SEM), and...La_ 1-xSr_xGa_ 1-yMg_yO_ 3-δ(LSGM)electrolyte material was synthesized by solid-state reaction method. The microstructure characteristics were tested via X-ray diffraction(XRD), scanning electron microcopy (SEM), and energy dispersive spectroscopy (EDS). XRD patterns indicate that perovskite phase began to form when the mixed materials were sintered at 1000 ℃, and the material has a pure LSGM perovskite phase when the mixed materials were sintered at 1450 ℃ in air for 24 h. No chemical reaction between LSGM electrolyte material and La_ 1-xSr_xMn_ 1-yCr_yO_ 3-δ(LSMC) anode material or La_ 1-xSr_xFe_ 1-yCo_yO_ 3-δ (LSFC) cathode material was detected after the mixed materials consisting of LSGM and LSMC or LSFC was sintered at 1200 ℃ in air for 15 h respectively, which shows that LSGM electrolyte material has excellent chemical compatibility with LSMC anode and LSFC cathode materials. According to SEM, LSMC anode film and cathode composite film of LSFC and LSMC prepared using direct painting method by sintering at 1150 ℃ are both porous and well cohered on LSGM electrolyte substrate.展开更多
文摘La_ 1-xSr_xGa_ 1-yMg_yO_ 3-δ(LSGM)electrolyte material was synthesized by solid-state reaction method. The microstructure characteristics were tested via X-ray diffraction(XRD), scanning electron microcopy (SEM), and energy dispersive spectroscopy (EDS). XRD patterns indicate that perovskite phase began to form when the mixed materials were sintered at 1000 ℃, and the material has a pure LSGM perovskite phase when the mixed materials were sintered at 1450 ℃ in air for 24 h. No chemical reaction between LSGM electrolyte material and La_ 1-xSr_xMn_ 1-yCr_yO_ 3-δ(LSMC) anode material or La_ 1-xSr_xFe_ 1-yCo_yO_ 3-δ (LSFC) cathode material was detected after the mixed materials consisting of LSGM and LSMC or LSFC was sintered at 1200 ℃ in air for 15 h respectively, which shows that LSGM electrolyte material has excellent chemical compatibility with LSMC anode and LSFC cathode materials. According to SEM, LSMC anode film and cathode composite film of LSFC and LSMC prepared using direct painting method by sintering at 1150 ℃ are both porous and well cohered on LSGM electrolyte substrate.
