Ionomer distribution control in porous carbon-supported catalyst layers for 
high-power and low Pt-loaded proton exchange membrane fuel cells

Ott, Sebastian; Orfanidi, Alin; Schmies, Henrike; Anke, Björn; Nong, Hong Nhan; Hübner, Jessica; Gernert, Ulrich; Gliech, Manuel; Lerch, Martin; Strasser, Peter

doi:10.1038/s41563-019-0487-0

Ionomer distribution control in porous carbon-supported catalyst layers for high-power and low Pt-loaded proton exchange membrane fuel cells

Ott, S., Orfanidi, A., Schmies, H., Anke, B., Nong, H. N., Hübner, J., Gernert, U., Gliech, M., Lerch, M., & Strasser, P. (2020). Ionomer distribution control in porous carbon-supported catalyst layers for high-power and low Pt-loaded proton exchange membrane fuel cells. Nature Materials, 19(1), 77-85. doi:10.1038/s41563-019-0487-0.

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アイテムのパーマリンク: https://hdl.handle.net/21.11116/0000-0007-D32F-7 版のパーマリンク: https://hdl.handle.net/21.11116/0000-0007-D330-4

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Ott, Sebastian¹, 著者
Orfanidi, Alin¹, 著者
Schmies, Henrike¹, 著者
Anke, Björn¹, 著者
Nong, Hong Nhan², 著者
Hübner, Jessica¹, 著者
Gernert, Ulrich¹, 著者
Gliech, Manuel¹, 著者
Lerch, Martin¹, 著者
Strasser, Peter³, 著者

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1external, ou_persistent22
2Research Department Schlögl, Max Planck Institute for Chemical Energy Conversion, Max Planck Society, ou_3023874
3Physical Chemistry, Fritz Haber Institute, Max Planck Society, ou_634546

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要旨: The reduction of Pt content in the cathode for proton exchange membrane fuel cells is highly desirable to lower their costs. However, lowering the Pt loading of the cathodic electrode leads to high voltage losses. These voltage losses are known to originate from the mass transport resistance of O-2 through the platinum-ionomer interface, the location of the Pt particle with respect to the carbon support and the supports' structures. In this study, we present a new Pt catalyst/support design that substantially reduces local oxygen-related mass transport resistance. The use of chemically modified carbon supports with tailored porosity enabled controlled deposition of Pt nanoparticles on the outer and inner surface of the support particles. This resulted in an unprecedented uniform coverage of the ionomer over the high surface-area carbon supports, especially under dry operating conditions. Consequently, the present catalyst design exhibits previously unachieved fuel cell power densities in addition to high stability under voltage cycling. Thanks to the Coulombic interaction between the ionomer and N groups on the carbon support, homogeneous ionomer distribution and reproducibility during ink manufacturing process is ensured.

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言語: eng - English

日付: 出版: 2020

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識別子（DOI, ISBNなど）: ISI: 000511170100017
DOI: 10.1038/s41563-019-0487-0

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出版物名: Nature Materials

省略形 : Nat. Mater.

種別: 学術雑誌

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出版社, 出版地: London, UK : Nature Pub. Group

ページ: - 巻号: 19 (1) 通巻号: - 開始・終了ページ: 77 - 85 識別子（ISBN, ISSN, DOIなど）: ISSN: 1476-1122
CoNE: https://pure.mpg.de/cone/journals/resource/111054835734000

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