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Ordered macroporous platinum electrode and enhanced mass transfer in fuel cells using inverse opal structure

Author

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  • Ok-Hee Kim

    (Center for Nanoparticle Research, Institute for Basic Science (IBS)
    School of Chemical and Biological Engineering, Seoul National University)

  • Yong-Hun Cho

    (School of Advanced Materials Engineering, Kookmin University)

  • Soon Hyung Kang

    (Chonnam National University)

  • Hee-Young Park

    (Center for Nanoparticle Research, Institute for Basic Science (IBS)
    School of Chemical and Biological Engineering, Seoul National University)

  • Minhyoung Kim

    (Center for Nanoparticle Research, Institute for Basic Science (IBS)
    School of Chemical and Biological Engineering, Seoul National University)

  • Ju Wan Lim

    (Center for Nanoparticle Research, Institute for Basic Science (IBS)
    School of Chemical and Biological Engineering, Seoul National University)

  • Dong Young Chung

    (Center for Nanoparticle Research, Institute for Basic Science (IBS)
    School of Chemical and Biological Engineering, Seoul National University)

  • Myeong Jae Lee

    (Center for Nanoparticle Research, Institute for Basic Science (IBS)
    School of Chemical and Biological Engineering, Seoul National University)

  • Heeman Choe

    (School of Advanced Materials Engineering, Kookmin University)

  • Yung-Eun Sung

    (Center for Nanoparticle Research, Institute for Basic Science (IBS)
    School of Chemical and Biological Engineering, Seoul National University)

Abstract

Three-dimensional, ordered macroporous materials such as inverse opal structures are attractive materials for various applications in electrochemical devices because of the benefits derived from their periodic structures: relatively large surface areas, large voidage, low tortuosity and interconnected macropores. However, a direct application of an inverse opal structure in membrane electrode assemblies has been considered impractical because of the limitations in fabrication routes including an unsuitable substrate. Here we report the demonstration of a single cell that maintains an inverse opal structure entirely within a membrane electrode assembly. Compared with the conventional catalyst slurry, an ink-based assembly, this modified assembly has a robust and integrated configuration of catalyst layers; therefore, the loss of catalyst particles can be minimized. Furthermore, the inverse-opal-structure electrode maintains an effective porosity, an enhanced performance, as well as an improved mass transfer and more effective water management, owing to its morphological advantages.

Suggested Citation

  • Ok-Hee Kim & Yong-Hun Cho & Soon Hyung Kang & Hee-Young Park & Minhyoung Kim & Ju Wan Lim & Dong Young Chung & Myeong Jae Lee & Heeman Choe & Yung-Eun Sung, 2013. "Ordered macroporous platinum electrode and enhanced mass transfer in fuel cells using inverse opal structure," Nature Communications, Nature, vol. 4(1), pages 1-9, December.
    • Handle: RePEc:nat:natcom:v:4:y:2013:i:1:d:10.1038_ncomms3473
    DOI: 10.1038/ncomms3473
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    Cited by:

    1. Minju Song & Yoonkyum Kim & Du San Baek & Ho Young Kim & Da Hwi Gu & Haiyang Li & Benjamin V. Cunning & Seong Eun Yang & Seung Hwae Heo & Seunghyun Lee & Minhyuk Kim & June Sung Lim & Hu Young Jeong &, 2023. "3D microprinting of inorganic porous materials by chemical linking-induced solidification of nanocrystals," Nature Communications, Nature, vol. 14(1), pages 1-13, December.
    2. Xia, Zhangxun & Sun, Ruili & Jing, Fenning & Wang, Suli & Sun, Hai & Sun, Gongquan, 2018. "Modeling and optimization of Scaffold-like macroporous electrodes for highly efficient direct methanol fuel cells," Applied Energy, Elsevier, vol. 221(C), pages 239-248.
    3. Cheng Wang & Shubo Wang & Linfa Peng & Junliang Zhang & Zhigang Shao & Jun Huang & Chunwen Sun & Minggao Ouyang & Xiangming He, 2016. "Recent Progress on the Key Materials and Components for Proton Exchange Membrane Fuel Cells in Vehicle Applications," Energies, MDPI, vol. 9(8), pages 1-39, July.
    4. Lee, W.H. & Yang, H.N. & Park, K.W. & Choi, B.S. & Yi, S.C. & Kim, W.J., 2016. "Synergistic effect of boron/nitrogen co-doping into graphene and intercalation of carbon black for Pt-BCN-Gr/CB hybrid catalyst on cell performance of polymer electrolyte membrane fuel cell," Energy, Elsevier, vol. 96(C), pages 314-324.

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