A novel way to improve performance of proton-conducting solid-oxide fuel cells through enhanced chemical interaction of anode components

International Journal of Hydrogen Energy

Volumn 36, Issue 2, 2011, Pages 1683-1691

  Guo, Youmin ^a   Ran, Ran ^a   Shao, Zongping ^a  

^a NANJING TECH UNIVERSITY   (China)

Author keywords

Interaction reaction; Proton conductor; Solid oxide fuel cells

Indexed keywords

ANODE COMPONENTS; CELL PERFORMANCE; CHEMICAL INTERACTIONS; CONDUCTING PHASE; CONDUCTING SOLIDS; DIFFUSIVITIES; EFFECT OF CHEMICALS; INTERACTION REACTION; OHMIC RESISTANCE; PEAK POWER DENSITIES; PROTON CONDUCTOR; SEM-EDX; SINGLE CELLS; TEMPERATURE-PROGRAMMED REDUCTION;

CERIUM; CHEMICAL ANALYSIS; ELECTROLYTES; GAS FUEL PURIFICATION; OHMIC CONTACTS; PROTONS; SOLID OXIDE FUEL CELLS (SOFC);

IONIC STRENGTH;

EID: 79551496843     PISSN: 03603199     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.ijhydene.2010.10.081     Document Type: Article

References (30)

1. B.C.H. Steele, and A. Heinzel Materials for fuel-cell technologies Nature 414 2001 345 352
2. M. Ni, D.Y.C. Leung, and M.K.H. Leung Mathematical modeling of ammonia-fed solid oxide fuel cells with different electrolytes Int J Hydrogen Energy 33 2008 5765 5772
3. Z.P. Shao, and S.M. Haile A high-performance cathode for the next generation of solid-oxide fuel cells Nature 431 2004 170 173
4. J.P.P. Huijsmans, F.P.F. van Berkel, and G.M. Christie Intermediate temperature SOFC - a promise for the 21st century J Power Sources 71 1998 107 110
5. 3 based electrolyte film Electrochim Acta 52 2006 1645 1650
6. 3-δ ceramic membrane Int J Hydrogen Energy 35 2010 814 820
7. 3-δ Science 326 2009 126 129
8. H. Iwahara, T. Esaka, H. Uchida, and N. Maeda Proton conduction in sintered oxides and its application to steam electrolysis for hydrogen production Solid State Ionics 3-4 1981 359 363
9. 3-δ electrolyte Int. J. Hydrogen Energy 35 2010 4258 4263
10. 1.5 system for intermediate temperature solid oxide fuel cells Int J Hydrogen Energy 35 2010 4597 4605
11. 3-δ J Electrochem Soc 140 1993 1687 1691
12. 3 cathode at low temperature J Electrochem Soc 149 2002 A1503 A1508
13. 3-δ thin electrolyte prepared with a suspension spray J Power Sources 170 2007 38 41
14. 3-δ oxides Mater Chem Phys 86 2004 150 155
15. 3-δ protonic conductors for Intermediate Temperature Solid Oxide Fuel Cells (IT-SOFCs) Solid State Ionics 179 2008 558 564
16. 3 Solid State Ionics 138 2000 91 98
17. K.D. Kreuer, S.t. Adams, W. Münch, A. Fuchs, U. Klock, and J. Maier Proton conducting alkaline earth zirconates and titanates for high drain electrochemical applications Solid State Ionics 145 2001 295 306
18. H. Iwhara, Y. Asakura, K. Katahira, and M. Tanaka Prospect of hydrogen technology using proton-conducting ceramics Solid State Ionics 168 2004 299 310
19. 3-δ electrolyte membrane for proton-conducting solid oxide fuel cell Electrochem Commun 10 2008 1598 1601
20. 3-δ as a cathode material for low temperature solid-oxide fuel cell Electrochem Commun 10 2008 1647 1651
21. 3-δ composite cathode J Power Sources 186 2009 58 61
22. L. Yang, C.D. Zuo, S.Z. Wang, Z. Cheng, and M.L. Liu A novel composite cathode for low-temperature SOFCs based on oxide proton conductors Adv Mater 20 2008 3280 3283
23. 3-δ cathode for protonic solid-oxide fuel cells J Power Sources 195 2010 4700 4703
24. L. Yang, Z. Liu, S.Q. Wang, Y.M. Choi, C.D. Zuo, and M.L. Liu A mixed proton, oxygen ion, and electron conducting cathode for SOFCs based on oxide proton conductors J Power Sources 195 2010 471 474
25. 3-δ perovskite cathode J Power Sources 183 2008 479 484
26. S.W. Tao, and J.T.S. Irvine A stable, easily sintered proton-conducting oxide electrolyte for moderate-temperature fuel cells and electrolyzers Adv Mater 18 2006 1581 1584
27. P.V. Dollen, and S. Barnett A study of screen printed yttria-stabilized zirconia layers for solid oxide fuel cells J Am Ceram Soc 88 2005 3361 3368
28. 3-δ substrates J Electrochem Soc 144 1997 1035 1040
29. 3-δ (0.0≤y≤0.8) for fuel cell applications J Power Sources 193 2009 400 407
30. 3 as solid-oxide fuel cell anodes operating on carbon monoxide fuel J Power Sources 195 2010 1333 1343