Modification of Ni-based cathode material for molten carbonate fuel cells using Co3O4

Young Suk Kim; Cheol Woo Yi; Hee Seon Choi; Keon Kim

doi:10.1016/j.jpowsour.2010.08.086

Modification of Ni-based cathode material for molten carbonate fuel cells using Co₃O₄

Young Suk Kim, Cheol Woo Yi, Hee Seon Choi, Keon Kim

Research output: Contribution to journal › Article › peer-review

24 Citations (Scopus)

Abstract

The degradation of cathode materials due to the so-called 'NiO dissolution' problem, is one of the most critical issues restricting the long-term operation of molten carbonate fuel cells (MCFCs). To overcome this problem, a modified NiO powder is prepared by the annealing of a pre-mixed powder consisting of Ni powder and Co₃O₄ nano-particles (n-Co₃O ₄) at 650 °C. Annealing above 300 °C plays an important role in converting the physically bound mixed oxide system to a chemically bound system and, therefore, the separation of n-Co₃O₄ from Ni is prevented. This modification leads to the formation of a Ni _0.9Co_0.1O solid solution, and the lithiated Ni _0.9Co_0.1O has a core-shell structure that consists of different Li contents. Whereas the core phase has a low concentration of lithium, the outer layer is a highly lithiated phase. Since the highly lithiated outer phase, acting as a barrier, minimizes the dissolution of NiO, the modified cathode demonstrates good electrochemical properties and chemical stability under actual operating conditions. This study can provide an effective way to mass produce MCFC cathode materials.

Original language	English
Pages (from-to)	1886-1893
Number of pages	8
Journal	Journal of Power Sources
Volume	196
Issue number	4
DOIs	https://doi.org/10.1016/j.jpowsour.2010.08.086
Publication status	Published - 2011 Feb 15

Bibliographical note

Funding Information:
The authors are gratefully for the support of the Korea Electric Power Corporation in this work. C.W.Y. also acknowledges a Sungshin Women's University Research Grant in 2010.

Keywords

Cathode material
Lithiation
Molten carbonate fuel cell
Neutron diffraction
Solubility

ASJC Scopus subject areas

Renewable Energy, Sustainability and the Environment
Energy Engineering and Power Technology
Physical and Theoretical Chemistry
Electrical and Electronic Engineering

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

Access to Document

10.1016/j.jpowsour.2010.08.086

Cite this

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title = "Modification of Ni-based cathode material for molten carbonate fuel cells using Co3O4",

abstract = "The degradation of cathode materials due to the so-called 'NiO dissolution' problem, is one of the most critical issues restricting the long-term operation of molten carbonate fuel cells (MCFCs). To overcome this problem, a modified NiO powder is prepared by the annealing of a pre-mixed powder consisting of Ni powder and Co3O4 nano-particles (n-Co3O 4) at 650 °C. Annealing above 300 °C plays an important role in converting the physically bound mixed oxide system to a chemically bound system and, therefore, the separation of n-Co3O4 from Ni is prevented. This modification leads to the formation of a Ni 0.9Co0.1O solid solution, and the lithiated Ni 0.9Co0.1O has a core-shell structure that consists of different Li contents. Whereas the core phase has a low concentration of lithium, the outer layer is a highly lithiated phase. Since the highly lithiated outer phase, acting as a barrier, minimizes the dissolution of NiO, the modified cathode demonstrates good electrochemical properties and chemical stability under actual operating conditions. This study can provide an effective way to mass produce MCFC cathode materials.",

keywords = "Cathode material, Lithiation, Molten carbonate fuel cell, Neutron diffraction, Solubility",

author = "Kim, {Young Suk} and Yi, {Cheol Woo} and Choi, {Hee Seon} and Keon Kim",

note = "Funding Information: The authors are gratefully for the support of the Korea Electric Power Corporation in this work. C.W.Y. also acknowledges a Sungshin Women's University Research Grant in 2010.",

year = "2011",

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AU - Kim, Young Suk

AU - Yi, Cheol Woo

AU - Choi, Hee Seon

AU - Kim, Keon

N1 - Funding Information: The authors are gratefully for the support of the Korea Electric Power Corporation in this work. C.W.Y. also acknowledges a Sungshin Women's University Research Grant in 2010.

PY - 2011/2/15

Y1 - 2011/2/15

N2 - The degradation of cathode materials due to the so-called 'NiO dissolution' problem, is one of the most critical issues restricting the long-term operation of molten carbonate fuel cells (MCFCs). To overcome this problem, a modified NiO powder is prepared by the annealing of a pre-mixed powder consisting of Ni powder and Co3O4 nano-particles (n-Co3O 4) at 650 °C. Annealing above 300 °C plays an important role in converting the physically bound mixed oxide system to a chemically bound system and, therefore, the separation of n-Co3O4 from Ni is prevented. This modification leads to the formation of a Ni 0.9Co0.1O solid solution, and the lithiated Ni 0.9Co0.1O has a core-shell structure that consists of different Li contents. Whereas the core phase has a low concentration of lithium, the outer layer is a highly lithiated phase. Since the highly lithiated outer phase, acting as a barrier, minimizes the dissolution of NiO, the modified cathode demonstrates good electrochemical properties and chemical stability under actual operating conditions. This study can provide an effective way to mass produce MCFC cathode materials.

AB - The degradation of cathode materials due to the so-called 'NiO dissolution' problem, is one of the most critical issues restricting the long-term operation of molten carbonate fuel cells (MCFCs). To overcome this problem, a modified NiO powder is prepared by the annealing of a pre-mixed powder consisting of Ni powder and Co3O4 nano-particles (n-Co3O 4) at 650 °C. Annealing above 300 °C plays an important role in converting the physically bound mixed oxide system to a chemically bound system and, therefore, the separation of n-Co3O4 from Ni is prevented. This modification leads to the formation of a Ni 0.9Co0.1O solid solution, and the lithiated Ni 0.9Co0.1O has a core-shell structure that consists of different Li contents. Whereas the core phase has a low concentration of lithium, the outer layer is a highly lithiated phase. Since the highly lithiated outer phase, acting as a barrier, minimizes the dissolution of NiO, the modified cathode demonstrates good electrochemical properties and chemical stability under actual operating conditions. This study can provide an effective way to mass produce MCFC cathode materials.

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