采用无机胶化工艺制备了球状的、分散性好且粒度分布较窄的几种ZrO2基粉末.经干压成型和烧结后制备成陶瓷质电解质材料.通过XRD显微结构等分析,显示所得的样品均为立方相结构.在1 450℃烧结的样品已近完全致密.1 450~1 550℃烧结的8YbSZ在450 ~700℃测试范围内具有比其他的ZrO2基材料更高的离子电导率.在550℃的操作温度下8YbSZ的电导率达0.001 S·cm-1,适合于作为中温固体电解质的材料.
参考文献
| [1] | Raymond George,Klaus Hassmann.燃料电池及其发展前景[J].国际电力,2001(02):24-26. |
| [2] | Chan SH.;Chen XJ.;Khor KA. .A simple bilayer electrolyte model for solid oxide fuel cells[J].Solid state ionics,2003(1/2):29-43. |
| [3] | Somov SI.;Guth U. .A parallel analysis of oxygen and combustibles in solid electrolyte amperometric cells[J].Sensors and Actuators, B. Chemical,1998(1/3):131-138. |
| [4] | Han Minfang;Tang Xiuling;Yin Huiyan et al.Fabrication,microstructure and properties of a YSZ elecrtrolyte for SOFCs[J].Journal of Power Sources,2007,165:757-763. |
| [5] | T. S. Zhang;J. Ma;H. T. Huang;P. Hing;Z. T. Xia;S. H. Chan;J. A. Kilner .Effects of dopant concentration and aging on the electrical properties of Y-doped ceria electrolytes[J].Solid state sciences,2003(11/12):1505-1511. |
| [6] | 豆斌朝,林振汉,吴亮,平信义.氧化锆固体电解质的掺杂性能和应用[J].稀有金属快报,2004(06):18-20. |
| [7] | Krumpelt Michael;Ralph James;Cruse Terry.Materials for low temperature SOFCs[A].Lucerne Switzerland:Eurpoean Fuel Cell Forum,2002:215-219. |
| [8] | Sha Xueqing;Lu Zhe;Huang Xiqiang et al.Preparation and properties of rare earth Co-doped Ce0.s Sm0.2-x YxO1.9electrolyte materials for SOFC[J].Journal of Alloys and Compounds,2006,424:315-321. |
| [9] | Jeffrey W. Fergus .Electrolytes for solid oxide fuel cells[J].Journal of Power Sources,2006(1):30-40. |
| [10] | Balagopal Shekar;Bay Insoo;Elangovan Singaravelu.Electrode of development for intermediate temperature solid fuel cell[A].Lucerne Switzerland,2002:233-237. |
| [11] | Badwal SPS.;Milosevic D.;Ciacchi FT. .Scandia-zirconia electrolytes for intermediate temperature solid oxide fuel cell operation[J].Solid state ionics,2000(Special Issue SI):91-99. |
| [12] | Nomura K.;Kawai M.;Nakamura Y.;Yamamoto O.;Mizutani Y. .Aging and Raman scattering study of scandia and yttria doped zirconia[J].Solid state ionics,2000(3/4):235-239. |
| [13] | Jeffrey W. Fergus .Electrolytes for solid oxide fuel cells[J].Journal of Power Sources,2006(1):30-40. |
| [14] | Drennan J .The influence of interfacce structures on the conducting properties of zirconia (ZrO2)-based solid electrolytes[J].Journal of Materials Synthesis and Processing,1998,6(03):181-189. |
| [15] | Choudhang C B;Maiti H S;Subbarao E C.Defect structure and transport properties[M].Solid electrolytes and their applications.New York:Plenum Press,1980 |
| [16] | Zacate MO.;Bradfield DJ.;Grimes RW.;Sickafus KE.;Minervini L. .Defect cluster formation in M2O3-doped cubic ZrO2[J].Solid state ionics,2000(1/4):243-254. |
| [17] | Yamamoto O.;Takeda Y.;Imanishi N.;Mizutani Y.;Kawai M. Nakamura Y.;Arati Y. .ELECTRICAL CONDUCTIVITY OF STABILIZED ZIRCONIA WITH YTTERBIA AND SCANDIA[J].Solid state ionics,1995(0):137-142. |
| [18] | Sarat S;Sammes N;Smirnova A .Bismuth oxide doped scandia-stabilized zirconia electrolvte for the intermediate temperature solid oxide fuel cells[J].Journal of Power Sources,2006,160:892-896. |
| [19] | Peck D H;Song R H;Kim J H.Electrochemical Society Proceedings,SOFC Ⅸ[M].Pennington:NJ,PV,2005:947-953. |
| [20] | Chiba Reiichi;Ishiii Takao;Yoshimuta Fumikatsu .Temperature dependence of ionic conductivity in ,(1-x) ZrO2,(x-y) Sc2O3-yYb2O3 electrolyte material[.J][J].Solid-State Ionicis,1996,91:249-256. |
| [21] | Weller M;Khelfaoui F;Kilo M et al.Defects and phase transitions in yttria-and scandia doped zirconia[,J][J].Solid-State Ionicis,2004,175:329-333. |
| [22] | Ingel R P;Lewis Ⅲ D .Lattice parameters and density for Y2O3-stabilized ZrO2[J].American Ceramic Society,1986,69(04):325-332. |
上一张
下一张
上一张
下一张
计量
- 下载量()
- 访问量()
文章评分
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%