Development of stabilized NiO cathodes for molten carbonate fuel cell

Authors
Ryu, B. H.Jang, I. G.Moon, K. H.Han, J.Lim, T. -H
Issue Date
2006-11
Publisher
ASME
Citation
JOURNAL OF FUEL CELL SCIENCE AND TECHNOLOGY, v.3, no.4, pp.389 - 395
Abstract
The stabilized NiO cathodes were fabricated by Li-Co-O coated Ni powder which was synthesized by hydrothermal treatment in 4 6 M (LiOHH2O)-H-.. The morphology of Li-Co-O coating was characterized by spectroscopic techniques to investigate the optimal synthesis conditions such as temperature, reaction nine, and reactant molarity Li-Co-O coating was consisted of LiCoO2, CO(OH)2, and CoOOH, and the amount of LiCoO2 was increased with increasing time and molarity of LiOH (.) H2O. The mechanical properties of the stabilized NiO cathodes were also measured to evaluate the stability in molten carbonote fuel cell (MCFC) applications. The bending strength of the stabilized cathode was significantly improved compared to the typical NiO cathode. The pores of the stabilized cathode showed typical bimodal distribution in size due to the micropores developed by coated materials, and the overall porosity was higher than 75% under optimal synthesis conditions, which is also promising for MCFC applications.
Keywords
LIFEO2-LICOO2-NIO CATHODES; NICKEL OXIDES; PERFORMANCE; SOLUBILITY; LITHIUM; CO; LA0.8SR0.2COO3; DISSOLUTION; IMPROVEMENT; PARTICLES; LIFEO2-LICOO2-NIO CATHODES; NICKEL OXIDES; PERFORMANCE; SOLUBILITY; LITHIUM; CO; LA0.8SR0.2COO3; DISSOLUTION; IMPROVEMENT; PARTICLES; stabilized NiO cathode; hydrothennal reaction; Li-Co-O coated Ni powder; mechanical strength
ISSN
1550-624X
URI
https://pubs.kist.re.kr/handle/201004/135007
DOI
10.1115/1.2349518
Appears in Collections:
KIST Article > 2006
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