In-situ synthesis of LSCF-GDC composite cathode materials for solid oxide fuel cells

J. Li; Z. Wu; N. Zhang; D. Ni; K. Sun

In-situ synthesis of LSCF-GDC composite cathode materials for solid oxide fuel cells

J. Li, Z. Wu, N. Zhang, D. Ni, K. Sun

科研成果: 书/报告/会议事项章节 › 会议稿件 › 同行评审

摘要

La_0.6 Sr_0.4 Co_0.2 Fe_0.8 O_3-δ- Gd_0.2 Ce_0.8 O _2-δ(LSCF-GDC) composite material is co-synthesized by the in-situ sol-gel method for Solid Oxide Fuel Cell (SOFC) cathodes. For the in-situ sol-gel method, the composite precursors are mixed at the sol state, which makes more uniform mixture than the solid state. Both the co-synthesized and physically mixed LSCF-GDC composites have been investigated for phase homogeneity by TEM energy-dispersive X-ray spectroscopy mapping and backscatter electron image. The results indicate that the dispersion of LSCF and GDC at the nanometer and micrometer scale is more homogeneous in the co-synthesized composites. Electrochemical impedance spectroscopy measurements confirm that the in-situ synthesized composites show lower polarization resistance than the physically mixed composites. An anode-supported fuel cell consisting of the in-situ synthesized LFCSGDC composite cathode demonstrates a maximum power density of 1068 mW cm^-2 at 800°C, which is promising for intermediate temperature SOFC systems.

源语言	英语
主期刊名	Advances in Energy, Environment and Materials Science - Proceedings of the International Conference on Energy, Environment and Materials Science, EEMS 2015
编辑	Jianhua Zhao, Yeping Wang
出版商	CRC Press/Balkema
页	657-663
页数	7
ISBN（印刷版）	9781138029316
出版状态	已出版 - 2016
已对外发布	是
活动	International Conference on Energy, Environment and Materials Science, EEMS 2015 - Guangzhou, 中国期限: 25 8月 2015 → 26 8月 2015

出版系列

姓名	Advances in Energy, Environment and Materials Science - Proceedings of the International Conference on Energy, Environment and Materials Science, EEMS 2015

会议

会议	International Conference on Energy, Environment and Materials Science, EEMS 2015
国家/地区	中国
市	Guangzhou
时期	25/08/15 → 26/08/15

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引用此

Li, J., Wu, Z., Zhang, N., Ni, D., & Sun, K. (2016). In-situ synthesis of LSCF-GDC composite cathode materials for solid oxide fuel cells. 在 J. Zhao, & Y. Wang (编辑), Advances in Energy, Environment and Materials Science - Proceedings of the International Conference on Energy, Environment and Materials Science, EEMS 2015 (页码 657-663). (Advances in Energy, Environment and Materials Science - Proceedings of the International Conference on Energy, Environment and Materials Science, EEMS 2015). CRC Press/Balkema.

Li, J. ; Wu, Z. ; Zhang, N. 等. / In-situ synthesis of LSCF-GDC composite cathode materials for solid oxide fuel cells. Advances in Energy, Environment and Materials Science - Proceedings of the International Conference on Energy, Environment and Materials Science, EEMS 2015. 编辑 / Jianhua Zhao ; Yeping Wang. CRC Press/Balkema, 2016. 页码 657-663 (Advances in Energy, Environment and Materials Science - Proceedings of the International Conference on Energy, Environment and Materials Science, EEMS 2015).

@inproceedings{6ceb49d7af7542319589844477fde8b1,

title = "In-situ synthesis of LSCF-GDC composite cathode materials for solid oxide fuel cells",

abstract = "La0.6 Sr0.4 Co0.2 Fe0.8 O3-δ- Gd0.2 Ce0.8 O 2-δ(LSCF-GDC) composite material is co-synthesized by the in-situ sol-gel method for Solid Oxide Fuel Cell (SOFC) cathodes. For the in-situ sol-gel method, the composite precursors are mixed at the sol state, which makes more uniform mixture than the solid state. Both the co-synthesized and physically mixed LSCF-GDC composites have been investigated for phase homogeneity by TEM energy-dispersive X-ray spectroscopy mapping and backscatter electron image. The results indicate that the dispersion of LSCF and GDC at the nanometer and micrometer scale is more homogeneous in the co-synthesized composites. Electrochemical impedance spectroscopy measurements confirm that the in-situ synthesized composites show lower polarization resistance than the physically mixed composites. An anode-supported fuel cell consisting of the in-situ synthesized LFCSGDC composite cathode demonstrates a maximum power density of 1068 mW cm-2 at 800°C, which is promising for intermediate temperature SOFC systems.",

author = "J. Li and Z. Wu and N. Zhang and D. Ni and K. Sun",

note = "Publisher Copyright: {\textcopyright} 2016 Taylor & Francis Group, London.; International Conference on Energy, Environment and Materials Science, EEMS 2015 ; Conference date: 25-08-2015 Through 26-08-2015",

year = "2016",

language = "English",

isbn = "9781138029316",

series = "Advances in Energy, Environment and Materials Science - Proceedings of the International Conference on Energy, Environment and Materials Science, EEMS 2015",

publisher = "CRC Press/Balkema",

pages = "657--663",

editor = "Jianhua Zhao and Yeping Wang",

booktitle = "Advances in Energy, Environment and Materials Science - Proceedings of the International Conference on Energy, Environment and Materials Science, EEMS 2015",

}

Li, J, Wu, Z, Zhang, N, Ni, D & Sun, K 2016, In-situ synthesis of LSCF-GDC composite cathode materials for solid oxide fuel cells. 在 J Zhao & Y Wang (编辑), Advances in Energy, Environment and Materials Science - Proceedings of the International Conference on Energy, Environment and Materials Science, EEMS 2015. Advances in Energy, Environment and Materials Science - Proceedings of the International Conference on Energy, Environment and Materials Science, EEMS 2015, CRC Press/Balkema, 页码 657-663, International Conference on Energy, Environment and Materials Science, EEMS 2015, Guangzhou, 中国, 25/08/15.

In-situ synthesis of LSCF-GDC composite cathode materials for solid oxide fuel cells. / Li, J.; Wu, Z.; Zhang, N. 等.
Advances in Energy, Environment and Materials Science - Proceedings of the International Conference on Energy, Environment and Materials Science, EEMS 2015. 编辑 / Jianhua Zhao; Yeping Wang. CRC Press/Balkema, 2016. 页码 657-663 (Advances in Energy, Environment and Materials Science - Proceedings of the International Conference on Energy, Environment and Materials Science, EEMS 2015).

科研成果: 书/报告/会议事项章节 › 会议稿件 › 同行评审

TY - GEN

T1 - In-situ synthesis of LSCF-GDC composite cathode materials for solid oxide fuel cells

AU - Li, J.

AU - Wu, Z.

AU - Zhang, N.

AU - Ni, D.

AU - Sun, K.

PY - 2016

Y1 - 2016

N2 - La0.6 Sr0.4 Co0.2 Fe0.8 O3-δ- Gd0.2 Ce0.8 O 2-δ(LSCF-GDC) composite material is co-synthesized by the in-situ sol-gel method for Solid Oxide Fuel Cell (SOFC) cathodes. For the in-situ sol-gel method, the composite precursors are mixed at the sol state, which makes more uniform mixture than the solid state. Both the co-synthesized and physically mixed LSCF-GDC composites have been investigated for phase homogeneity by TEM energy-dispersive X-ray spectroscopy mapping and backscatter electron image. The results indicate that the dispersion of LSCF and GDC at the nanometer and micrometer scale is more homogeneous in the co-synthesized composites. Electrochemical impedance spectroscopy measurements confirm that the in-situ synthesized composites show lower polarization resistance than the physically mixed composites. An anode-supported fuel cell consisting of the in-situ synthesized LFCSGDC composite cathode demonstrates a maximum power density of 1068 mW cm-2 at 800°C, which is promising for intermediate temperature SOFC systems.

AB - La0.6 Sr0.4 Co0.2 Fe0.8 O3-δ- Gd0.2 Ce0.8 O 2-δ(LSCF-GDC) composite material is co-synthesized by the in-situ sol-gel method for Solid Oxide Fuel Cell (SOFC) cathodes. For the in-situ sol-gel method, the composite precursors are mixed at the sol state, which makes more uniform mixture than the solid state. Both the co-synthesized and physically mixed LSCF-GDC composites have been investigated for phase homogeneity by TEM energy-dispersive X-ray spectroscopy mapping and backscatter electron image. The results indicate that the dispersion of LSCF and GDC at the nanometer and micrometer scale is more homogeneous in the co-synthesized composites. Electrochemical impedance spectroscopy measurements confirm that the in-situ synthesized composites show lower polarization resistance than the physically mixed composites. An anode-supported fuel cell consisting of the in-situ synthesized LFCSGDC composite cathode demonstrates a maximum power density of 1068 mW cm-2 at 800°C, which is promising for intermediate temperature SOFC systems.

UR - http://www.scopus.com/inward/record.url?scp=84961150745&partnerID=8YFLogxK

M3 - Conference contribution

AN - SCOPUS:84961150745

SN - 9781138029316

T3 - Advances in Energy, Environment and Materials Science - Proceedings of the International Conference on Energy, Environment and Materials Science, EEMS 2015

SP - 657

EP - 663

BT - Advances in Energy, Environment and Materials Science - Proceedings of the International Conference on Energy, Environment and Materials Science, EEMS 2015

A2 - Zhao, Jianhua

A2 - Wang, Yeping

PB - CRC Press/Balkema

T2 - International Conference on Energy, Environment and Materials Science, EEMS 2015

Y2 - 25 August 2015 through 26 August 2015

ER -

Li J, Wu Z, Zhang N, Ni D, Sun K. In-situ synthesis of LSCF-GDC composite cathode materials for solid oxide fuel cells. 在 Zhao J, Wang Y, 编辑, Advances in Energy, Environment and Materials Science - Proceedings of the International Conference on Energy, Environment and Materials Science, EEMS 2015. CRC Press/Balkema. 2016. 页码 657-663. (Advances in Energy, Environment and Materials Science - Proceedings of the International Conference on Energy, Environment and Materials Science, EEMS 2015).

In-situ synthesis of LSCF-GDC composite cathode materials for solid oxide fuel cells

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