机译:基于钨青铜渗透的SOFC阳极
Department of Chemical and Biomolecular Engineering, University of Pennsylvania Philadelphia, 220 South 33rd Street 311A Toume Building, Pennsylvania 19104-6315, USA;
Department of Chemical and Biomolecular Engineering, University of Pennsylvania Philadelphia, 220 South 33rd Street 311A Toume Building, Pennsylvania 19104-6315, USA;
Department of Chemical and Biomolecular Engineering, University of Pennsylvania Philadelphia, 220 South 33rd Street 311A Toume Building, Pennsylvania 19104-6315, USA;
Department of Chemical and Biomolecular Engineering, University of Pennsylvania Philadelphia, 220 South 33rd Street 311A Toume Building, Pennsylvania 19104-6315, USA;
Department of Chemical and Biomolecular Engineering, University of Pennsylvania Philadelphia, 220 South 33rd Street 311A Toume Building, Pennsylvania 19104-6315, USA;
solid oxide fuel cells; ceramic anode; yttria-stabilized zirconia; sodium tungsten bronze;
机译:四方钨青铜型相(Sr1-xBax)(0.6)Ti0.2Nb0.8O3-δ:材料表征和作为SOFC阳极的性能
机译:铌基四方钨青铜作为固体氧化物燃料电池合成和电学表征的潜在阳极
机译:溶液化学法合成铯钨青铜及铯钨青铜薄膜的近红外屏蔽性能
机译:通过纳米渗透提高SOFC的阴极性能和阳极硫/碳耐受性
机译:平面阳极支撑的SOFC热电联产系统的基于物理的动力学建模
机译:混合导电钙钛矿型环境压力XPS研究精细定义的电化学条件下的SOFC阴极和阳极材料偏振
机译:通过喷墨印刷渗透市售的阳极支撑SOFC