Department of Inorganic Nonmetal Materials, University of Science and Technology Beijing, China, Beijing, 100083, PR China;
Department of Inorganic Nonmetal Materials, University of Science and Technology Beijing, China, Beijing, 100083, PR China Beijing Key laboratory of New Energy Materials and Technology, Beijing, 100083, PR China;
Department of Inorganic Nonmetal Materials, University of Science and Technology Beijing, China, Beijing, 100083, PR China;
Department of Mechanical Engineering, Tsinghua University, Beijing 100084, PR China;
Department of Inorganic Nonmetal Materials, University of Science and Technology Beijing, China, Beijing, 100083, PR China;
Department of Inorganic Nonmetal Materials, University of Science and Technology Beijing, China, Beijing, 100083, PR China;
Co-doped Y0.08Sr0.92TiO3-δ; Anode; Ionic conductivity; Mixed conductor; Solid oxide fuel cell;
机译:共掺杂Y0.08Sr0.92TiO3-δ作为潜在SOFC阳极的合成及电学性能
机译:Ga〜(3-)和Cu〜(2+)共掺杂二氧化碳陶瓷的结构,形态和电性能作为IT-SOFC的固体电解质
机译:用于SOFC阳极的新型稀土钛钙钛矿的合成和电性能
机译:作为电位SOFC阳极的共掺杂Y0.08SR0.92TiO3-δ的合成和电性能
机译:镍基SOFC阳极与煤衍生的合成气中的痕量污染物的相互作用。
机译:Lu3 + / Yb3 +和Lu3 + / Er3 +共掺杂硒化锑纳米材料:合成表征以及电热电和光学性质
机译:高孔隙率(Y,sr)(Ti,Nb)O3-δ的结构与电学性质的相关性 sOFC阳极