以碳酸盐和氧化物为原料,通过凝胶浇注法制得了Sm_(0.5)Sr_(0.5)Co_(1-x)Fe_xO_(3-δ)(SSCF, x=0~1.0)粉体,对不同温度煅烧所得粉体的相组成和微观形貌进行了测定.制备的Sm_(0.5)Sr_(0.5)Co_(1-x)Fe_xO_(3-δ)粉体模压成形后烧结得到SSCF烧结体.测定了烧结体的密度和孔隙率并对烧结体的微观结构进行了观测,用直流四端子法测定了烧结样品的电导率并对其热膨胀系数及电化学性能等进行了测定.结果表明:干凝胶在1000 ℃煅烧可以得到粒度均匀细小的SSCF粉体,其晶体结构随Fe含量发生变化;一定温度烧结的Sm_(0.5)Sr_(0.5)Co_(1-x)Fe_xO_(3-δ)材料具有多孔结构,随烧结温度的增加,烧结体的密度增大,孔隙率减小;Fe的掺杂降低了Sm_(0.5)Sr_(0.5)CoO_(3-δ)材料的热膨胀系数,Sm_(0.5)Sr_(0.5)Co_(0.2)Fe_(0.8)O_(3-δ)材料在800 ℃时的热膨胀系数为16.4×10~(-6) K~(-1);SSCF材料的电导率随Fe含量的增加而减小,但在500~800 ℃,其电导率均大于100 S·cm~(-1).此外,Sm_(0.5)Sr_(0.5)Co_(1-x)Fe_xO_(3-δ)材料均表现出良好的催化活性.
Sm_(0.5)Sr_(0.5)Co_(1-x)Fe_xO_(3-δ)(SSCF,x=0~1.0)powders were prepared by a gel-casting method using corresponding carbonates and oxides as raw materials. Phase composition and morphology of the obtained powders was investigated. Density and porosity of the sintered SSCF samples were measured by the Archimedes method. The microstructure was observed by scanning electron microscope (SEM), and the electrical conductivity was tested by the four-probe method. Thermal expansion coefficient (TEC) and electrochemical performance of the SSCF materials were also studied. The results showed that superfine and well-dispersed SSCF powders with perovskite structure are obtained when the dried gels are calcined at temperature above 1000 ℃.The iron dosage and temperature have an obvious influence on the phase formation, the density and the pore characteristics of the SSCF samples. The doping of Fe effectively lowers the TEC of the Sm_(0.5)Sr_(0.5)CoO_(3-δ) materials. Electrical conductivity of the SSCF samples decreases with iron doping but all is above 100 S·cm~(-1) at 500~800 ℃. Furthermore, the Sm_(0.5)Sr_(0.5)Co_(1-x)Fe_xO_(3-δ) samples show high oxygen catalytic activities.
参考文献
| [1] | Stephen J. Skinner .Recent advances in Perovskite-type materials for solid oxide fuel cell cathodes[J].International journal of inorganic materials,2001(2):113-121. |
| [2] | 黄祖志,罗凌虹,卢泉,程亮,付长翼,郎莹.固体氧化物燃料电池电解质8YSZ薄膜的水系流延[J].人工晶体学报,2008(05):1268-1272. |
| [3] | Liu Y;Rauch W;Zha SW;Liu ML .Fabrication of Sm0.5Sr0.5CoO3-delta-Sm0.1Ce0.9O2-delta cathodes for solid oxide fuel cells using combustion CVD[J].Solid state ionics,2004(3/4):261-268. |
| [4] | Janina Molenda,Jacek Marzec.固体氧化物燃料电池--材料与前瞻[J].电化学,2005(04):355-359. |
| [5] | 黄端平,徐庆,陈文,张枫.新型中温固体氧化物燃料电池阴极材料的研究[J].陶瓷学报,2006(03):275-280. |
| [6] | 卢俊彪,张中太,唐子龙.固体氧化物燃料电池的研究进展[J].稀有金属材料与工程,2005(08):1177-1180. |
| [7] | 雷泽,朱庆山.纳米La0.6Sr0.4Co0.2Fe0.8O3-δ阴极粉体的溶液燃烧法合成与性能表征[J].物理化学学报,2007(02):232-236. |
| [8] | 吕洪,赵斌元,孙刚,吴宇骥,胡克鳌.新型中温固体氧化物燃料电池阴极材料Fe掺杂Sm0.5Sr0.5CoO3性能研究[J].无机化学学报,2006(11):1967-1972. |
| [9] | Fukunaga H.;Takahashi N.;Wen C.;Yamada K.;Koyama M. .Reaction model of dense Sm0.5Sr0.5CoO3 as SOFC cathode[J].Solid state ionics,2000(3/4):279-285. |
| [10] | 程继贵,石平,仲洪海,王步美,孟广耀.缓冲溶液法制备钴酸锶钐阴极材料及其性能[J].硅酸盐学报,2006(02):255-260. |
| [11] | 高建峰,郎莹,夏长荣,孟广耀.La0.7Sr0.3FeO3-Sm0.2Ce0.8O2复合阴极制备及性能研究[J].材料研究学报,2005(01):72-77. |
| [12] | Tu HY.;Imanishi N.;Yamamoto O.;Takeda Y. .LN(1-X)SR(X)COO(3) (LN=SM, DY) FOR THE ELECTRODE OF SOLID OXIDE FUEL CELLS[J].Solid state ionics,1997(3/4):283-288. |
| [13] | Baque L;Caneiro A;Moreno MS;Serquis A .High performance nanostructured IT-SOFC cathodes prepared by novel chemical method[J].Electrochemistry communications,2008(12):1905-1908. |
| [14] | Cheng, CS;Zhang, L;Zhang, YJ;Jiang, SP .Synthesis of LaCoO3 nano-powders by aqueous gel-casting for intermediate temperature solid oxide fuel cells[J].Solid state ionics,2008(7/8):282-289. |
| [15] | Zhang F Z;Takeaki K;Masayoshi F J et al.Gelcasting Fabrication of Porous Ceramics Using a Continuous Process[J].Journal of the European Ceramic Society,2006,26:667-671. |
| [16] | Baek, SW;Kim, JH;Bae, J .Characteristics of ABO(3) and A(2)BO(4) (A=Sm, Sr; B=Co, Fe, Ni) samarium oxide system as cathode materials for intermediate temperature-operating solid oxide fuel cell[J].Solid state ionics,2008(27/32):1570-1574. |
| [17] | Hong Lv;Bin-Yuan Zhao;Yu-Ji Wu;Gang Sun;Gang Chen;Ke-Ao Hu .Effect of B-site doping on Sm_(0.5)Sr_(0.5)M_xCo_(1-x)O_(3-δ) properties for IT-SOFC cathode material (M = Fe, Mn)[J].Materials Research Bulletin: An International Journal Reporting Research on Crystal Growth and Materials Preparation and Characterization,2007(12):1999-2012. |
- 下载量()
- 访问量()
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%