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机译:平面内传输增强层通过引入质子交换膜电解槽电池的性能改进
Univ Tennessee Dept Mech Aerosp &
Biomed Engn UT Space Inst Nanodynam &
High Efficiency Lab Prop &
Power Nano Tullahoma TN 37388 USA;
Univ Tennessee Dept Mech Aerosp &
Biomed Engn UT Space Inst Nanodynam &
High Efficiency Lab Prop &
Power Nano Tullahoma TN 37388 USA;
Univ Tennessee Dept Mech Aerosp &
Biomed Engn UT Space Inst Nanodynam &
High Efficiency Lab Prop &
Power Nano Tullahoma TN 37388 USA;
Univ Tennessee Dept Mech Aerosp &
Biomed Engn UT Space Inst Nanodynam &
High Efficiency Lab Prop &
Power Nano Tullahoma TN 37388 USA;
NREL Golden CO 80401 USA;
NREL Golden CO 80401 USA;
NREL Golden CO 80401 USA;
Univ Tennessee Dept Mech Aerosp &
Biomed Engn UT Space Inst Nanodynam &
High Efficiency Lab Prop &
Power Nano Tullahoma TN 37388 USA;
Liquid/gas diffusion layers; Porous transport layers; Mass diffusion; Electrochemical impedance spectroscopy; Water electrolysis;
机译:平面内传输增强层通过引入质子交换膜电解槽电池的性能改进
机译:优化催化剂涂覆膜,以提高质子交换膜电解细胞的性能
机译:具有新型薄/可调谐液/气体扩散层质子交换膜电解槽电池的性能建模与电流映射
机译:质子交换膜燃料电池气体扩散层的面内透气率
机译:质子交换膜燃料电池的气体扩散层中的质量传输。
机译:质子交换膜电解槽的自放电:用于建模目的的调查
机译:测量质子和阴离子交换膜水电除膜中膜和多孔传输层的导热率,用于温度分布建模