期刊文献+
任意字段
题名或关键词
题名
关键词
文摘
作者
第一作者
机构
刊名
分类号
参考文献
作者简介
基金资助
栏目信息

Pt/YSZ电极烧制温度对其性能的影响 被引量:7

Effects of Pt/YSZ electrode sintering temperature on its characteristics
原文传递
导出
摘要 采用交流阻抗测试技术、循环伏安、计时电流和扫描电镜等实验方法,研究了Pt/YSZ电极烧制温度对其性能的影响.研究表明,随着烧制温度升高,电极过程激活能减小,电极总阻抗和响应时间均先减小后增大.烧制温度小于或等于1100℃时,氧原子大量吸附于Pt电极表面,与铂原子发生位置重排反应而生成Pt氧化物,电极过程激活能为177~230 kJ.mol-1;烧制温度大于1100℃时,电极系统中可能存在的Pt氧化物充分解离,电极过程激活能为107~172 kJ.mol-1.烧制温度为1000~1100℃所制电极总阻抗最小,电荷转移过程响应最快,电极活性最高. The effects of Pt/YSZ electrode sintering temperature on its characteristics were studied by AC impedance,cyclic voltammetry,chronoamperometry,and SEM observation.The result indicates that as the sintering temperature increases,the activation energy of the electrode process decreases,both the electrode total resistance and response time decrease first and then increase.While the sintering temperature is below or equal 1 100 ℃,a large quantity of oxygen atoms are adsorbed on the Pt electrode surface,Pt oxide will be found due to the site exchange reactions of the adsorbed oxygen atoms and Pt atoms,and the activation energy of the electrode process is from 177 to 230 kJ·mol-1;as the sintering temperature is above 1 100 ℃,Pt oxide probably existed in the electrode system decomposes completely,and the activation energy of the electrode process is from 107 to 172 kJ·mol-1.The electrode sintered at temperatures of 1 000 to 1 100 ℃ has the least total resistance,the shortest response time of charge transfer,and the highest activity.
作者 王光伟 李和平 徐丽萍 张磊 张艳清 窦静
机构地区 中国科学院地球化学研究所地球深部物质与流体作用实验室 中国科学院研究生院
出处 《北京科技大学学报》 EI CAS CSCD 北大核心 2010年第1期67-72,共6页 Journal of University of Science and Technology Beijing
基金 国家高技术研究发展计划资助项目(No.2006AA09Z205) 国家基金委面上项目(No.40573046) 中国科学院重大科研装备研制项目(No.YZ200720)
关键词 Pt/YSZ电极 烧制温度 阻抗谱 循环伏安 计时电流 Pt/YSZ electrode sintering temperature impedance spectroscopy cyclic voltammetry chronoamperometry
分类号 TQ174 [化学工程—陶瓷工业]
  • 相关文献

参考文献22

  • 1Drevet C, Henauh M, Fulatier J. Oxygen electrode reaction on stabilized zirconia under high oxygen pressure ( up to 100 bar). Solid State lonics, 2000, 136/137(2) : 807.
  • 2Sridhar S, Stancovski V, Pal U B. Effect of oxygen-containing species on the impedance of the Pt/YSZ interface. Solid State Ionics, 1997, 100(1/2): 17.
  • 3Wang T, Novak R F, Sohis R E. A study of factors that influence zirconia/platinum interfacial impedance using equivalent circuit analysis. Sens Actuactors B, 2001, 77(1/2) : 132.
  • 4简家文,杨邦朝,张益康.Pt/YSZ电极结构老化特性研究[J].无机材料学报,2004,19(1):93-100. 被引量:9
  • 5Badwal S P S, Ciacchi F T. Microstructure of Pt electrodes and its influence on the oxygen transfer kinetics. Solid State lonics, 1986, 18/19 : 1054.
  • 6Jaccoud A, Foti G, Wuthrich R, et al. Effect of microstructure on the electrochemical behavior of Pt/YSZ electrodes. Top Catal, 2007, 44 (3) : 409.
  • 7Yoon S P, Nam S W, Han J, et al. Effect of electrode microstructure on gas-phase diffusion in solid oxide fuel cells. Solid State lonics,. 2004, 166 ( 1/2 ) : 1.
  • 8Jaccoud A, Foti G, Comninellis C. Electrochemical investigation of platinum electrode in solid electrolyte cell. Electrochim Acta, 2006, 51(7) : 1264.
  • 9Sridhar S, Stancovski V, Pal U B. Transient and permanent effects of direct current on oxygen transfer across YSZ-electrode interface. J Electrochem Soc, 1997, 144(7) : 2479.
  • 10Schwandt C, Weppner W. Variation of the oxygen exchange rate of zirconia-based electrodes by electrochemical pretreatment. Solid State lonics, 1998, 112(3/4) : 229.

二级参考文献8

共引文献16

同被引文献47

  • 1简家文,杨邦朝,张益灿.Pt/YSZ电极结构形貌对传感器特性的影响[J].电子测量与仪器学报,2004,18(4):10-14. 被引量:6
  • 2江义,李文钊,阎景旺,王世忠.Pt/YSZ固体电解质界面氧的电荷传递过程研究[J].电化学,1996,2(2):157-163. 被引量:8
  • 3UEDA T, NAGANO T, OKAWA H, et al. Amperometric-type NOx sensor based on YSZ electrolyte and La-based perovskite-type oxide sensing electrode [J]. J Ceram Soc Jpn, 2010, 118(3): 180-183.
  • 4UEDA T, NAGANO T, OKAWA H, et al. Zirconia-based amperometric sensor using La-Sr-based perovskite-type oxide sensing electrode for detection of NO2 [J]. Electroehem Commun, 2009, 11 (8): 1654-1656.
  • 5WANG T, NOVAK R F, SOLTIS R E. A study of factors that influence zirconia/platinum interracial impedance using equivalent circuit analysis [J]. Sens Actuators B: Chem, 2001, 77(1/2): 132-138.
  • 6ZHANG W F, SCHMIDT-ZHANG P, GUTH U. Electrochemical studies on cells M/YSZ/Pt (M=Pt, Pt-Ga203) in NO, 02, N2 gas mixtures [J]. Solid State lonics, 2004, 169(1/2/3/4): 121-128.
  • 7VELLE O J, NORBY T, KOFSTAD P. The electrode system O2Pt II ZrO2: 8Y203 investigated by impedence spectroscopy [J]. Solid State lonics, 1991, 47(1/2); 161-167.
  • 8IVERS-TIFFEE E, HARDTL K H, MENESKLOU W, et al. Principles of solid state oxygen sensors for lean combustion gas control [J]. Electrochim Acta, 2001, 47(5): 807-814.
  • 9AFANAWEV V V, STESMANS A, CHEN F, et al. Internal photoemission of electrons and holes from (100) Si into HfO2 [J]. Applied Physics Letters, 2002, gl (6): 1053- 1055.
  • 10JI T, NIE T X, CUI J, et al. Temperature effects on the growth and electrical properties of Er203 films on Ge sub- strates [J]. Thin Solid Films, 2012, 520 (8): 3406- 3409.

引证文献7

二级引证文献8

北京科技大学学报
2010年 第1期

相关作者

内容加载中请稍等...

相关机构

内容加载中请稍等...

相关主题

内容加载中请稍等...

浏览历史

内容加载中请稍等...
;
使用帮助 返回顶部