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Water Electrolysis: Hierarchically Structured Porous Transport Layers for Polymer Electrolyte Water Electrolysis (Adv. Energy Mater. 2/2020)
Advanced Energy Materials ( IF 27.8 ) Pub Date : 2020-01-14 , DOI: 10.1002/aenm.202070009 Tobias Schuler 1 , Joseph M. Ciccone 1 , Bernd Krentscher 2 , Federica Marone 3 , Christian Peter 1 , Thomas J. Schmidt 1, 4 , Felix N. Büchi 1
Advanced Energy Materials ( IF 27.8 ) Pub Date : 2020-01-14 , DOI: 10.1002/aenm.202070009 Tobias Schuler 1 , Joseph M. Ciccone 1 , Bernd Krentscher 2 , Federica Marone 3 , Christian Peter 1 , Thomas J. Schmidt 1, 4 , Felix N. Büchi 1
Affiliation
In article number 1903216, Felix N. Büchi and co‐workers report on the development of multilayer porous transport structures for polymer electrolyte water electrolysis cells. The new titanium sintered materials combine preferential low surface roughness with high open porosity and low tortuosity. The materials enhance catalyst layer utilization and cell performance and can be combined with very thin membrane electrolytes.
中文翻译:
水电解:用于聚合物电解质水电解的分层结构的多孔传输层(Adv。Energy Mater。2/2020)
Felix N.Büchi及其同事在1903216号文章中报告了用于聚合物电解质水电解池的多层多孔传输结构的开发。新型钛烧结材料结合了低表面粗糙度,高开孔率和低曲折度。该材料可提高催化剂层的利用率和电池性能,并可与非常薄的膜电解质结合使用。
更新日期:2020-01-14
中文翻译:
水电解:用于聚合物电解质水电解的分层结构的多孔传输层(Adv。Energy Mater。2/2020)
Felix N.Büchi及其同事在1903216号文章中报告了用于聚合物电解质水电解池的多层多孔传输结构的开发。新型钛烧结材料结合了低表面粗糙度,高开孔率和低曲折度。该材料可提高催化剂层的利用率和电池性能,并可与非常薄的膜电解质结合使用。