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机译:通过改善离子掺杂膜的双周末纳米结构,具有高质子电导率的聚酰亚胺-PEG分段嵌段共聚物膜
Department of Chemical Engineering Stanford University Stanford CA 94305 USA;
Department of Chemical Engineering Stanford University Stanford CA 94305 USA;
Department of Chemical Engineering Stanford University Stanford CA 94305 USA;
Department of Chemical Engineering Stanford University Stanford CA 94305 USA;
SLAC National Accelerator Laboratory Synchrotron Radiation Light Source Menlo Park CA 94205 USA;
Department of Chemical Engineering Stanford University Stanford CA 94305 USA;
Department of Chemical Engineering Stanford University Stanford CA 94305 USA;
bicontinuous structures; ionic liquids; polymer electrolyte membranes; segmented block copolymers;
机译:通过改善离子掺杂膜的双周末纳米结构,具有高质子电导率的聚酰亚胺-PEG分段嵌段共聚物膜
机译:嵌段共聚物双连续结晶/非晶形态解决高分子电解质膜电导率与吸水率折衷的新颖设计
机译:多嵌段共聚物,具有高度磺化的嵌段,包含二和四磺化亚芳基砜片段,适用于质子交换膜燃料电池应用
机译:基于磺化分段亲水性 - 疏水嵌段的多嵌块共聚物的合成质子交换膜
机译:纳米结构嵌段共聚物/离子液体膜中的离子传输。
机译:具有热响应链段的咪唑盐基嵌段共聚物的离子电导率和组装结构
机译:聚酰亚胺-PEG分段通过改善离子掺杂薄膜的双周末纳米结构具有高质子电导率的嵌段共聚物膜