Abstract
In this study, the anode material of molten carbonate fuel cell was modified by the deposition of niobium on nickel surface. The results of polarization experiments reveal that the corrosion resistant properties as well as electrocatalytic activity have been improved greatly.
Keywords
MCFC, Anode, Surface alloying, Surface modification
Publication Date
1997-05-28
Online Available Date
1997-05-28
Revised Date
1997-05-28
Received Date
1997-05-28
Recommended Citation
Baizeng Fang, Xinyu Liu, Xindong Wang, Shuzhen Duan.
Surface Modification of Molten Carbonate Fuel Cell Anode[J]. Journal of Electrochemistry,
1997
,
3(2): Article 7.
DOI: 10.61558/2993-074X.3110
Available at:
https://jelectrochem.xmu.edu.cn/journal/vol3/iss2/7
References
1曾潮流,张鉴清.熔融碳酸盐燃料电池.腐蚀与防护技术,1993,5(4):291~2962Ken-IchiroOta,Baek-tunKim,HideakiYoshiTae,NobuyukiKamiya.HighTemperatureCorrosionofMetalswithMoltenCarbonate.ProceedingsoftheFifthChina-JapanBilateralConferenceonMoltenChemistryandTechnology,Kunming,China,Sept.28-Oct.2,1994:42~453古川修弘等,JP.昭63-138658.19884YabeH,ItoY,EmaK,OishiJ.ResearchanddevelopmentofalternativematerialsforMCFC.J.PowerSources,1988,24:2075乔芝郁,PieereTaxil.Ta-Ni和Nb-Ni的熔盐电化学表面合金化及合金性质的研究.金属学报,1987,23(2):B76~B836SelmanJR,MarianowskiLG,inLoveringDG(Eds.).MoltenSaltTechnology.NewYork:PlenumPress,1982:346
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