稀有金属材料与工程
稀有金屬材料與工程
희유금속재료여공정
RARE METAL MATERIALS AND ENGINEERNG
2009年
z2期
943-946
,共4页
吕敬德%李跃华%戴磊%朱靖%郭红霞%王岭
呂敬德%李躍華%戴磊%硃靖%郭紅霞%王嶺
려경덕%리약화%대뢰%주정%곽홍하%왕령
质子-电子混合导体%SrCe_0.95Tm_0.05O_(3-δ)%电导率%气氛
質子-電子混閤導體%SrCe_0.95Tm_0.05O_(3-δ)%電導率%氣氛
질자-전자혼합도체%SrCe_0.95Tm_0.05O_(3-δ)%전도솔%기분
mixed proton-electron conductor%SrCe_0.95Tm_0.05O_(3-δ)%electrical conductivity%atmosphere
采用高温固相法制备了质子-电子混合导体SrCe_0.95Tm_0.05O_(3-δ)材料.使用X射线衍射仪、扫描电子显微镜分别对1600 ℃烧结10 h后的混合导体晶型、微观形貌进行了研究.应用交流阻抗谱法测试了空气、氢气、氩气3种不同气氛中混合导体的电导率.结果表明:所制备的混合导体为单相致密斜方晶钙钛结构,气氛对晶粒电导率影响不大,而对晶界和总电导率有明显影响.800 ℃空气、氢气和氩气气氛中总电导率分别为4.65×10~(-3),3.41×10~(-3),1.87×10~(-3) S·cm~(-1).
採用高溫固相法製備瞭質子-電子混閤導體SrCe_0.95Tm_0.05O_(3-δ)材料.使用X射線衍射儀、掃描電子顯微鏡分彆對1600 ℃燒結10 h後的混閤導體晶型、微觀形貌進行瞭研究.應用交流阻抗譜法測試瞭空氣、氫氣、氬氣3種不同氣氛中混閤導體的電導率.結果錶明:所製備的混閤導體為單相緻密斜方晶鈣鈦結構,氣氛對晶粒電導率影響不大,而對晶界和總電導率有明顯影響.800 ℃空氣、氫氣和氬氣氣氛中總電導率分彆為4.65×10~(-3),3.41×10~(-3),1.87×10~(-3) S·cm~(-1).
채용고온고상법제비료질자-전자혼합도체SrCe_0.95Tm_0.05O_(3-δ)재료.사용X사선연사의、소묘전자현미경분별대1600 ℃소결10 h후적혼합도체정형、미관형모진행료연구.응용교류조항보법측시료공기、경기、아기3충불동기분중혼합도체적전도솔.결과표명:소제비적혼합도체위단상치밀사방정개태결구,기분대정립전도솔영향불대,이대정계화총전도솔유명현영향.800 ℃공기、경기화아기기분중총전도솔분별위4.65×10~(-3),3.41×10~(-3),1.87×10~(-3) S·cm~(-1).
Mixed proton-electron conductor SrCe_0.95Tm_0.05O_(3-δ) was synthesized by high temperature solid-state reaction. The crystalline phase and microstructure of mixed conductor sintered at 1600 ℃ for 10 h were investigated by XRD and SEM, respectively. The electrical conductivity of mixed conductor in air, H_2 and Ar atmospheres was measured by electrochemical impedance spectroscopy (EIS). The results indicate that sintered mixed conductor shows dense and single phase perovskite orthorhombic structure. The atmospheres have a little effect on bulk conductivity of mixed conductor, while grain boundary and total conductivity are obviously influenced by atmospheres. At 800 ℃, the conductivity of mixed conductor is 4.65×10~(-3), 3.41×10~(-3), 1.87×10~(-3) S·cm~(-1) in air, H_2 and Ar atmospheres, respectively.
