Ni-Fe-Ce(Mn,Fe)O sub(2) cermet anode for rechargeable Fe-Air battery using LaGaO sub(3) oxide ion conductor as electrolyte

There is a strong demand for the development of a large capacity rechargeable battery in various fields. Recently, we proposed the combination of solid oxide fuel cell technology with Fe-air battery concepts using H sub(2)/H sub(2)O as a redox mediator and a LaGaO sub(3)-based oxide as an electrolyt...

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Veröffentlicht in:	RSC advances 2013-02, Vol.3 (9), p.3024-3030
Hauptverfasser:	Inoishi, Atsushi, Ida, Shintaro, Uratani, Shouichi, Okano, Takayuki, Ishihara, Tatsumi
Format:	Artikel
Sprache:	eng
Schlagworte:	Anodes Battery Cermets Demand Electrolytic cells Intermetallic compounds Iron Nickel Oxides
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container_title	RSC advances
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creator	Inoishi, Atsushi Ida, Shintaro Uratani, Shouichi Okano, Takayuki Ishihara, Tatsumi
description	There is a strong demand for the development of a large capacity rechargeable battery in various fields. Recently, we proposed the combination of solid oxide fuel cell technology with Fe-air battery concepts using H sub(2)/H sub(2)O as a redox mediator and a LaGaO sub(3)-based oxide as an electrolyte. Because large internal resistance and large degradation during charge and discharge cycles were observed on the anode, there is a strong demand for improvements in discharge potential and cycle stability. This study investigates the use of a cermet anode consisting of a Ni-Fe alloy combined with an oxide ion conductor. It was observed that by using a cermet anode of Ni-Fe combined with Ce sub(0.6)Mn sub(0.3)Fe sub(0.1)O sub(2) (CMF), the observed capacity of the cell was improved to 1163 mAh g super(-1) Fe super(-1) at 10 mA cm super(-2) and 873 K. This is about 97% of the theoretical capacity by assuming the formation of Fe sub(3)O sub(4) (1200 mAh g super(-1) Fe super(-1)). Cycle stability of the cell was also considerably improved with the use of a Ni-Fe-CMF anode compared to a Ni-Fe anode because of the suppressed aggregation provided by the mixing of Ni with CMF.
doi_str_mv	10.1039/c2ra23370c
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Recently, we proposed the combination of solid oxide fuel cell technology with Fe-air battery concepts using H sub(2)/H sub(2)O as a redox mediator and a LaGaO sub(3)-based oxide as an electrolyte. Because large internal resistance and large degradation during charge and discharge cycles were observed on the anode, there is a strong demand for improvements in discharge potential and cycle stability. This study investigates the use of a cermet anode consisting of a Ni-Fe alloy combined with an oxide ion conductor. It was observed that by using a cermet anode of Ni-Fe combined with Ce sub(0.6)Mn sub(0.3)Fe sub(0.1)O sub(2) (CMF), the observed capacity of the cell was improved to 1163 mAh g super(-1) Fe super(-1) at 10 mA cm super(-2) and 873 K. This is about 97% of the theoretical capacity by assuming the formation of Fe sub(3)O sub(4) (1200 mAh g super(-1) Fe super(-1)). 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Cycle stability of the cell was also considerably improved with the use of a Ni-Fe-CMF anode compared to a Ni-Fe anode because of the suppressed aggregation provided by the mixing of Ni with CMF.</abstract><doi>10.1039/c2ra23370c</doi></addata></record>
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source	Royal Society Of Chemistry Journals 2008-
subjects	Anodes Battery Cermets Demand Electrolytic cells Intermetallic compounds Iron Nickel Oxides
title	Ni-Fe-Ce(Mn,Fe)O sub(2) cermet anode for rechargeable Fe-Air battery using LaGaO sub(3) oxide ion conductor as electrolyte
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