Development of electrodeposited IrO2 electrode and its catalytic acitvity towards oxygen evolution reaction in polymer electrolyte membrane based water electolysis

B. S. Lee, S. H. Ahn, H. Y. Park, I. Choi, Kwan Young Lee, H. J. Kim, E. A. Cho, D. Henkensmeier, SukWoo Nam, T. H. Lim, J. H. Jang

Research output: Chapter in Book/Report/Conference proceedingConference contribution

Abstract

In order to decrease the loading amount of novel catalysts, IrO2 anodes were fabricated by electrodeposition method on carbon paper, and the water electrolysis performances were evaluated. The IrO2 loading amount gradually increased, with deposition time, up to 0.464 mg/cm2. When single cells of polymer electrolyte membrane based water electrolysis (PEMWE) were operated, the cell performance was comparable to conventional cells with high novel metal loadings.

Original languageEnglish
Title of host publicationEFC 2013 - Proceedings of the 5th European Fuel Cell Piero Lunghi Conference
PublisherENEA
Pages287-288
Number of pages2
ISBN (Print)9788882862978
Publication statusPublished - 2013
Event5th European Fuel Cell Piero Lunghi Conference and Exhibition, EFC 2013 - Rome, Italy
Duration: 2013 Dec 112013 Dec 13

Other

Other5th European Fuel Cell Piero Lunghi Conference and Exhibition, EFC 2013
CountryItaly
CityRome
Period13/12/1113/12/13

Fingerprint

Electrolysis
Electrolytes
Membranes
Electrodes
Oxygen
Polymers
Electrodeposition
Water
Anodes
Catalysts
Carbon
Metals

Keywords

  • Electrodeposition
  • Iridium oxides
  • Polymer electrolyte membrane based water electrolysis

ASJC Scopus subject areas

  • Fuel Technology

Cite this

Lee, B. S., Ahn, S. H., Park, H. Y., Choi, I., Lee, K. Y., Kim, H. J., ... Jang, J. H. (2013). Development of electrodeposited IrO2 electrode and its catalytic acitvity towards oxygen evolution reaction in polymer electrolyte membrane based water electolysis. In EFC 2013 - Proceedings of the 5th European Fuel Cell Piero Lunghi Conference (pp. 287-288). ENEA.

Development of electrodeposited IrO2 electrode and its catalytic acitvity towards oxygen evolution reaction in polymer electrolyte membrane based water electolysis. / Lee, B. S.; Ahn, S. H.; Park, H. Y.; Choi, I.; Lee, Kwan Young; Kim, H. J.; Cho, E. A.; Henkensmeier, D.; Nam, SukWoo; Lim, T. H.; Jang, J. H.

EFC 2013 - Proceedings of the 5th European Fuel Cell Piero Lunghi Conference. ENEA, 2013. p. 287-288.

Research output: Chapter in Book/Report/Conference proceedingConference contribution

Lee, BS, Ahn, SH, Park, HY, Choi, I, Lee, KY, Kim, HJ, Cho, EA, Henkensmeier, D, Nam, S, Lim, TH & Jang, JH 2013, Development of electrodeposited IrO2 electrode and its catalytic acitvity towards oxygen evolution reaction in polymer electrolyte membrane based water electolysis. in EFC 2013 - Proceedings of the 5th European Fuel Cell Piero Lunghi Conference. ENEA, pp. 287-288, 5th European Fuel Cell Piero Lunghi Conference and Exhibition, EFC 2013, Rome, Italy, 13/12/11.
Lee BS, Ahn SH, Park HY, Choi I, Lee KY, Kim HJ et al. Development of electrodeposited IrO2 electrode and its catalytic acitvity towards oxygen evolution reaction in polymer electrolyte membrane based water electolysis. In EFC 2013 - Proceedings of the 5th European Fuel Cell Piero Lunghi Conference. ENEA. 2013. p. 287-288
Lee, B. S. ; Ahn, S. H. ; Park, H. Y. ; Choi, I. ; Lee, Kwan Young ; Kim, H. J. ; Cho, E. A. ; Henkensmeier, D. ; Nam, SukWoo ; Lim, T. H. ; Jang, J. H. / Development of electrodeposited IrO2 electrode and its catalytic acitvity towards oxygen evolution reaction in polymer electrolyte membrane based water electolysis. EFC 2013 - Proceedings of the 5th European Fuel Cell Piero Lunghi Conference. ENEA, 2013. pp. 287-288
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abstract = "In order to decrease the loading amount of novel catalysts, IrO2 anodes were fabricated by electrodeposition method on carbon paper, and the water electrolysis performances were evaluated. The IrO2 loading amount gradually increased, with deposition time, up to 0.464 mg/cm2. When single cells of polymer electrolyte membrane based water electrolysis (PEMWE) were operated, the cell performance was comparable to conventional cells with high novel metal loadings.",
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AU - Ahn, S. H.

AU - Park, H. Y.

AU - Choi, I.

AU - Lee, Kwan Young

AU - Kim, H. J.

AU - Cho, E. A.

AU - Henkensmeier, D.

AU - Nam, SukWoo

AU - Lim, T. H.

AU - Jang, J. H.

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AB - In order to decrease the loading amount of novel catalysts, IrO2 anodes were fabricated by electrodeposition method on carbon paper, and the water electrolysis performances were evaluated. The IrO2 loading amount gradually increased, with deposition time, up to 0.464 mg/cm2. When single cells of polymer electrolyte membrane based water electrolysis (PEMWE) were operated, the cell performance was comparable to conventional cells with high novel metal loadings.

KW - Electrodeposition

KW - Iridium oxides

KW - Polymer electrolyte membrane based water electrolysis

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