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在Al2O3电解质体系中,利用X射线衍射分析仪、扫描电子显微镜和交流阻抗谱仪考察了烧结温度对陶瓷体Al2O3固体电解质(BASE)的β″/β相的形成、体密度和离子电导率的影响。研究表明:固相法合成BASE时,陶瓷体的最佳的陶瓷烧结温度为1 600℃。离子电导率、β″含量、体积密度随烧结温度的升高先上升后下降。离子电导率不仅与相结构有关,还与材料的致密性有关。导电过程在温度升高过程中,会由晶界控制转变为晶粒控制。随着烧结温度的升高,晶界控制的温度范围逐渐减小。
Abstract:Al2O3solid electrolytes were synthesized viasolid state reaction.The formation ofβ″/βphase,density and ionic conductivity of Al2O3at various sintering temperatures were investigated by X-ray diffraction、scanning electron microscopy and electrochemical impedance spectroscopy,respectively.The results show that the performance of alumina electrolytes is related to the sintering temperature,and the optimum sintering temperature is 1 600℃.Theβ″phase content,density and ionic conductivity firstly increases and then decreases with increasing the sintering temperature.The ionic conductivity depends on the phase structure and the compactness of the material.During the process of the temperature elevated,the conductive process is controlled by the grain boundary into a grain control.The temperature range controlled by the grain boundary decreases as the sintering temperature increases.
[1]HUESO K B,ARMAND M,ROJO T,High temperature sodium batteries:status,challenges and future trends[J].Energy Environmen Sci,2013,6:734-749.
[2]WEN Z,HU Y,WU X,et al.Main Challenges for High Performance NAS Battery:Materials and Interfaces[J].Adv Funct Mater,2013,23:1005-1018.
[3]LU X,XIA G,LEMMON J P,et al.Advanced materials for sodium-beta alumina batteries:Status,challenges and perspectives[J].J Power Sources,2010,195(9):2431-2442.
[4]ZHU C,XUE J.Structure and properties relationships ofβ-Al2O3electrolyte materials[J].J Alloys Compd,2012,517:182-185.
[5]MALI A,PETRIC A,Fabrication of a thin walledβ″-alumina electrolyte cells[J].J Power Sources,2011,196(11):5191-5196.
[6]温兆银,林祖纕,江东亮.尖晶石对β/β″-Al2O3膜相组成和离子导电性的影响[J].应用化学,1998,15(1):65-67.WEN Z,LIN Z JIANG D.Chin J Appl Chem(in Chinese),1998,15(1):65-67.
[7]OSHIMA T,KAJITA M,OKUNO A.Development of sodium-sulfur batteries[J].Appl Ceram Tech,2004,1(3):269-276.
[8]朱承飞,薛金花,王李,等.EDTA配合法制备β-Al2O3固体电解质[J].无机化学学报,2010,26(7):1165-1170.ZHU C,XUE J,WANG L,et al.Chin J Inorg Chem,2010,26(7):1165-1170.
[9]陈昆刚,林祖纕,樊增钊,等.部分合成法制备Na-β″-Al2O3陶瓷[J].无机材料学报,1997,12(05):725-728.CHEN K,LIN Z,FAN Z,et al.J Inorg Mater(in Chinese),1997,12(5):725-728.
[10]HODGE J D.Kinetics of theβ″toβtransformation in the system Na2O-Al2O3[J].J Am Ceram Soc,1983,66(3):166-169.
[11]LEE D D,KIM J H,KIM Y H.The relative stability of b andβ″-phases in Na2O-Al2O3beta alumina[J].J Mater Sci,1990,25:2897-2900.
[12]YOUNGBLOOD G,VIRKAR A V,CANNON W R,et al.Sintering processes and heat treatment schedules for conductive,lithia-stabilizedβ″-Al2O3[J].Am Ceram Bull,1977,56:206-210.
[13]WEN Z Y,CAO J D,GU Z H,et al.Research on sodium sulfur battery for energy storage[J].Solid State Ionics,2008,179(27-32):1697-1701.
[14]PARK J H,KIM K H,LIM S K.Influence of stabilizers on Na-beta″-Al2O3phase formation in Li2O(MgO)-Na2O-Al2O3ternary systems[J].J Mater Sci,1998,33(23):5671-5675.
[15]ENGSTROM H,BATES J B,BRUNDAGE W E,et al.Ionic conductivity of sodium beta″-alumina[J].Solid State Ionics,1981,2(4):265-276.
基本信息:
中图分类号:TQ174.1
引用信息:
[1]朱承飞,薛金花.烧结温度对陶瓷体氧化铝固体电解质性能的影响[J].硅酸盐学报,2014,42(07):886-890.
基金信息:
国家自然科学基金(21203095);; 中国博士后科学基金项目(2012M511261)资助
2014-07-30
2014-07-30
2014-07-30