Mixing effects of Cr2O3-PrBaMn2O5 for increased redox cycling properties of Fe powder for a solid-oxide Fe-air rechargeable battery

Hackho Kim, Shintaro Ida, Young Wan Ju, Junko Matsuda, Guntae Kim, Tatsumi Ishihara

研究成果: ジャーナルへの寄稿記事

5 引用 (Scopus)

抄録

Large capacity rechargeable batteries are now strongly required for generating electric power from renewable energy, like solar cells or wind power generators. For this purpose, solid oxide Fe-air rechargeable batteries have been studied. In this study, for increasing the stability of the redox cycling properties of Fe powder at 623 K, mixing effects of Cr2O3 and PrBaMn2O5 catalysts were investigated and it was found that Fe powder mixed with 3 wt% Cr2O3-3 wt% PrBaMn2O5 showed excellent stability against redox cycling at 623 K. When Fe powder mixed with Cr2O3-PrBaMn2O5 was used, stable charge and discharge capacity could be achieved over 50 cycles by using the cell consisting of Ni-Fe/La0.9Sr0.1Ga0.8Mg0.2O3/Ba0.6La0.4CoO3. The discharge capacity of the cell achieved was larger than 770 mA h gFe-1 at 623 K. Increased capacity and cycle performance could be assigned to the deep redox degree of Fe powder.

元の言語英語
ページ(範囲)364-371
ページ数8
ジャーナルJournal of Materials Chemistry A
5
発行部数1
DOI
出版物ステータス出版済み - 1 1 2017

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Secondary batteries
Powders
Oxides
Air
Solar wind
Wind power
Solar cells
Catalysts
Oxidation-Reduction

All Science Journal Classification (ASJC) codes

  • Chemistry(all)
  • Renewable Energy, Sustainability and the Environment
  • Materials Science(all)

これを引用

Mixing effects of Cr2O3-PrBaMn2O5 for increased redox cycling properties of Fe powder for a solid-oxide Fe-air rechargeable battery. / Kim, Hackho; Ida, Shintaro; Ju, Young Wan; Matsuda, Junko; Kim, Guntae; Ishihara, Tatsumi.

:: Journal of Materials Chemistry A, 巻 5, 番号 1, 01.01.2017, p. 364-371.

研究成果: ジャーナルへの寄稿記事

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abstract = "Large capacity rechargeable batteries are now strongly required for generating electric power from renewable energy, like solar cells or wind power generators. For this purpose, solid oxide Fe-air rechargeable batteries have been studied. In this study, for increasing the stability of the redox cycling properties of Fe powder at 623 K, mixing effects of Cr2O3 and PrBaMn2O5 catalysts were investigated and it was found that Fe powder mixed with 3 wt{\%} Cr2O3-3 wt{\%} PrBaMn2O5 showed excellent stability against redox cycling at 623 K. When Fe powder mixed with Cr2O3-PrBaMn2O5 was used, stable charge and discharge capacity could be achieved over 50 cycles by using the cell consisting of Ni-Fe/La0.9Sr0.1Ga0.8Mg0.2O3/Ba0.6La0.4CoO3. The discharge capacity of the cell achieved was larger than 770 mA h gFe-1 at 623 K. Increased capacity and cycle performance could be assigned to the deep redox degree of Fe powder.",
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AU - Kim, Hackho

AU - Ida, Shintaro

AU - Ju, Young Wan

AU - Matsuda, Junko

AU - Kim, Guntae

AU - Ishihara, Tatsumi

PY - 2017/1/1

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N2 - Large capacity rechargeable batteries are now strongly required for generating electric power from renewable energy, like solar cells or wind power generators. For this purpose, solid oxide Fe-air rechargeable batteries have been studied. In this study, for increasing the stability of the redox cycling properties of Fe powder at 623 K, mixing effects of Cr2O3 and PrBaMn2O5 catalysts were investigated and it was found that Fe powder mixed with 3 wt% Cr2O3-3 wt% PrBaMn2O5 showed excellent stability against redox cycling at 623 K. When Fe powder mixed with Cr2O3-PrBaMn2O5 was used, stable charge and discharge capacity could be achieved over 50 cycles by using the cell consisting of Ni-Fe/La0.9Sr0.1Ga0.8Mg0.2O3/Ba0.6La0.4CoO3. The discharge capacity of the cell achieved was larger than 770 mA h gFe-1 at 623 K. Increased capacity and cycle performance could be assigned to the deep redox degree of Fe powder.

AB - Large capacity rechargeable batteries are now strongly required for generating electric power from renewable energy, like solar cells or wind power generators. For this purpose, solid oxide Fe-air rechargeable batteries have been studied. In this study, for increasing the stability of the redox cycling properties of Fe powder at 623 K, mixing effects of Cr2O3 and PrBaMn2O5 catalysts were investigated and it was found that Fe powder mixed with 3 wt% Cr2O3-3 wt% PrBaMn2O5 showed excellent stability against redox cycling at 623 K. When Fe powder mixed with Cr2O3-PrBaMn2O5 was used, stable charge and discharge capacity could be achieved over 50 cycles by using the cell consisting of Ni-Fe/La0.9Sr0.1Ga0.8Mg0.2O3/Ba0.6La0.4CoO3. The discharge capacity of the cell achieved was larger than 770 mA h gFe-1 at 623 K. Increased capacity and cycle performance could be assigned to the deep redox degree of Fe powder.

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