| 911 |
Performance and sulfur poisoning of Ni/CeO2 impregnated La0.75Sr0.25Cr0.5Mn0.5O3-delta anode in solid oxide fuel cells
Li YQ, Zhang YH, Zhu XB, Wang ZH, Lu Z, Huang XQ, Zhou YJ, Zhu L, Jiang W
Journal of Power Sources, 285, 354, 2015 |
| 912 |
Constructal optimization for a single tubular solid oxide fuel cell
Feng HJ, Chen LG, Xie ZH, Sun FR
Journal of Power Sources, 286, 406, 2015 |
| 913 |
Characterization of Ni-cermet degradation phenomena I. Long term resistivity monitoring, image processing and X-ray fluorescence analysis
Ananyev MV, Bronin DI, Osinkin DA, Eremin VA, Steinberger-Wilckens R, de Haart LGJ, Mertens J
Journal of Power Sources, 286, 414, 2015 |
| 914 |
Towards understanding surface chemistry and electrochemistry of La0.1Sr0.9TiO3-alpha based solid oxide fuel cell anodes
Yurkiv V, Constantin G, Hornes A, Gondolini A, Mercadelli E, Sanson A, Dessemond L, Costa R
Journal of Power Sources, 287, 58, 2015 |
| 915 |
New insight into highly active cathode of proton conducting solid oxide fuel cells by oxygen ionic conductor modification
He BB, Zhang L, Zhang YX, Ding D, Xu JM, Ling YH, Zhao L
Journal of Power Sources, 287, 170, 2015 |
| 916 |
A model-based approach for current voltage analyses to quantify degradation and fuel distribution in solid oxide fuel cell stacks
Linder M, Hocker T, Meier C, Holzer L, Friedrich KA, Iwanschitz B, Mai A, Schuler JA
Journal of Power Sources, 288, 409, 2015 |
| 917 |
Influence of reduction conditions on electrical properties of NiO-zirconia composites for solid oxide fuel cell electrode
Orui H, Nozawa K, Arai H, Kanno R
Journal of Power Sources, 288, 419, 2015 |
| 918 |
Investigating the effect of thermal gradients on stress in solid oxide fuel cell anodes using combined synchrotron radiation and thermal imaging
Robinson JB, Brown LD, Jervis R, Taiwo OO, Heenan TMM, Millichamp J, Mason TJ, Neville TP, Clague R, Eastwood DS, Reinhard C, Lee PD, Brett DJL, Shearing PR
Journal of Power Sources, 288, 473, 2015 |
| 919 |
RuO2 nanoparticle-modified (Ce,Mn,Fe)O-2/(La,Sr) (Fe,Mn)O-3 composite oxide as an active anode for direct hydrocarbon type solid oxide fuel cells
Shin TH, Hagiwara H, Ida S, Ishihara T
Journal of Power Sources, 289, 138, 2015 |
| 920 |
Theoretical analysis of hydrogen oxidation reaction in solid oxide fuel cell anode based on species territory adsorption model
Nagasawa T, Hanamura K
Journal of Power Sources, 290, 168, 2015 |
