VVirkar A V,Tanner C W.The role of electrode microstructure on activation and concentration polarizations in solid oxide fuel cells[J].Solid State Ionics,2000,131(1-2):189.
[2]
IIoselevich A S.Phenomenological theory of solid oxide fuel cell anode[J].Fuel Cells,2001,1(1):40.[3]Chan S H.Anode micro model of solid oxide fuel cell[J].Journal of the Electrochemical Society,2001,148(4):388. 3.0.CO;2-6 target="_blank">
[3]
IIoselevich A S,Kornyshev A A.Phenomenological theory of solidoxide fuel cell anode[J].Fuel Cells,2001,1(1):40. 3.0.CO;2-6 target="_blank">
[4]
WWang M H,Guo H,Ma C F,et al.Study of dynamic performance of a direct methanal fuel cell[J].Proceedings of CSEE,2005,25(6):161.
[5]
VVirkar A V,Chen J,Tanner C W,et al.The role of electrode microstructure on activation and concentration polarizations in solidoxide fuel cells[J].Solid State Ionics,2000,131(1-2):189.
GGunther G.Interfacial aspects in the development of polymer electrolyte fuel cells[J].Solid State Ionics,1997:249.
[8]
Hiroshi F,Manabu I,Kei J,et al.The relationship between overpotential and the three phase boundary length[J].Solid State Ionics,1996,86-88:1179.
[9]
Ben K,Kunal K.Engineering of microstructure and design of a planar porous composite SOFC cathode.A numerical analysis[J].Solid State Ionics,2007(178):297.
简家文,杨邦朝,张益康.Pt/ YSZ电极结构老化特性的复阻抗研究功能[J].无机材料学报,2004,35(2):200.[23]Michael C.Simmonds thin sputtered platinum films on porous membranes as working electrodes in gas sensors[J].Electrochimica Acta,1998,43(21-22):3285.
[20]
Marion W.PTFE membrane electrodes with increased sensitivity for gas sensor applications[J].Synthetic Metals,2003(138):165.
Tomashov N D.Development of the electrochemical Theory of Metallic[J].Corrosion,1964,20:7.[27]王佳,水流彻.使用Kelvin探头参比电极技术研究液层厚度对氧还原速度的影响[J].中国腐蚀与防护学报,1995,15(3):180.
[23]
Wang J.Electrochemical studies on corrosion behaviour of steel in sand with water[J].J.Chinese Oceanology and Limnology,1997,15(4):369.