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

有机熔盐LiTFSI/NaTf中锂在铝电极上的电极过程 被引量:1

Electrochemical behavior of Li incorporation into Al in LiTFSI/NaTf organic molten salt
在线阅读 下载PDF
导出
摘要 采用循环伏安、计时电流和恒电流充放电等电化学测试技术考察了LiTFSI/NaTf熔盐电解质中锂在铝电极上的电化学行为。研究结果表明:在该熔盐中,锂在铝电极上的电化学还原过程伴随着锂铝合金的成核过程,且反应生成的LiAl合金只有一种合金相是可逆的;恒电流循环充放电实验发现,首次循环的库仑效率较低,库仑效率随电流密度的增大而有所减小,但随温度的升高而增大。计时电流实验发现,锂原子嵌入铝电极中形成α-LiAl合金的过程受锂在铝基体内扩散步骤控制,且该扩散系数为1.7×10-10 cm2.s-1。 The electrochemical behavior of lithium incorporation into aluminum electrode in LiTFSI/NaTf molten salt electrolyte was studied with electrochemical techniques,including cyclic voltammetry,chronopotentiometry and chronoamperometry.The reduction reaction was found to involve a nucleation process at the aluminum electrode,and only one LiAl alloy phase was reversible.The galvanostatic cycle experiments showed that the coulombic efficiency was very low in the first cycle and decreased with increasing current density,and increased with increasing operating temperature.The results of chronoamperometry indicated that the incorporation of lithium into aluminum for the formation of α-phase Li-Al alloy was limited by its rate of diffusion,with a measured diffusion coefficient of 1.7×10-10 cm^2·s^-1.
作者 屠晓华 褚有群 马淳安 吴建一 缪程平
机构地区 嘉兴学院生物与化学工程学院 浙江工业大学应用化学系 嘉兴市化工清洁工艺重点实验室
出处 《化工学报》 EI CAS CSCD 北大核心 2012年第5期1498-1503,共6页 CIESC Journal
基金 嘉兴学院科研启动金项目(70510011) 嘉兴市化工清洁工艺重点实验室开放基金(84209001B3)~~
关键词 高温 熔盐 铝电极 电化学行为 成核过程 high temperature molten salt aluminum electrode electrochemical behavior nucleation process
分类号 O646 [理学—物理化学]
  • 相关文献

参考文献32

  • 1Butler P,Wagner C,Guidotti R,Francis I. Long-life,multi-tap thermal battery development[J].Journal of Power Sources,2004.240-245.doi:10.1016/j.jpowsour.2004.03.034.
  • 2Guidotti R A,Reinhardt F W,Odined J. Overview of hightemperature batteries for geothermal and oil/gas borehole power sources[J].Journal of Power Sources,2004.257-262.
  • 3Masset P,Schocffcrt S,Poinso J,Poignet J. LiF-LiCl-LiI vs.LiF-LiBr-KBr as molten salt electrolyte in thermal batteries[J].Journal of the Electrochemical Society,2005,(02):A405-A410.doi:10.1021/ja1049093.
  • 4Guidotti R A,Masset P. Thermal activated ("thermal")batteries technology (Ⅰ):An overview[J].Journal of Power Sources,2006,(2):1443-1449.doi:10.1016/j.jpowsour.2006.06.013.
  • 5Masset P,Guidotti R A. Thermal activated ("thermal")batteries technology (Ⅱ):Molten salt electrolytes[J].Journal of Power Sources,2007.397-414.doi:10.1016/j.molcel.2010.01.038.
  • 6Kaun T D,Nelson P A,Reday L,Vissers D R Henriksen G L. High temperature lithium/sulfide batteries[J].Electrochimica Acta,1993.1269-1287.doi:10.1016/0013-4686(93)80057-7.
  • 7Singh P,Guidotti R A,Reisner D. AC impedance measurementsof molten salt thermal batteries[J].Journal of Power Sources,2004.323-326.doi:10.1111/j.1365-2141.2010.08274.x.
  • 8Kasajima T,Nishikiori T,Nohira T,Ito Y. Hydrogen electrode reactions in an alkali bromide melt[J].Electrochemical and Solid State Letters,2003,(05):E5-E9.doi:10.1149/1.1565852.
  • 9Kasajima T,Nishikiori T,Nohira T,Ito Y. Electrochemical window and the characteristics of (α + β) A1-Li alloy reference electrode for a LiBr-KBr-CsBr eutectic melt[J].Journal of the Electrochemical Society,2004,(11):E335-E339.doi:10.1149/1.1795542.
  • 10Melnichack M E,Kleppa J O. Enthalpies of mixing in binary liquid alkali iodide mixtures[J].Journal of Chemical Physics,1970,(04):1790-1794.doi:10.1016/j.humov.2008.05.003.

二级参考文献54

  • 1陈人杰,吴锋,粱宏莹,张存中.新型室温熔盐二(三氟甲基磺酸酰)亚胺锂-乙酰胺/乙烯脲体系的研究[J].高等学校化学学报,2004,25(11):2108-2111. 被引量:5
  • 2管从胜,段淑贞,王新东.锂离子在铝电极上的电极过程机理[J].中国有色金属学报,1996,6(4):51-55. 被引量:3
  • 3Guidotti R A, Reinhardt F W, Odinek J. Overview of high temperature batteries for geothermal and oil/gas borehole power sources. J. Power Sources, 2004, 136 (2): 257 -262
  • 4Masset P, Guidotti R A. Thermal activated (thermal) battery technology (Ⅱ): Molten salt electrolytes. J. Power Sources , 2007, 164 (1): 397- 414
  • 5Kaun T D, Nelson P A, Readay L, Vissers D R, Henriksen G L. High temperature lithium/sulfide batteries. Electrochim. Acta, 1993, 38 (9):1269-1287
  • 6Melendres C A. Kinetics of electrochemical incorporation of lithium onto aluminum. J. Electrochem. Soc., 1977, 124 (5): 650 -655
  • 7Fung Y S, Inman D H, White S. Studies of the kinetics of the lithium/aluminium electrode in molten LiCl-KCl by linear sweep voltammetry. J. Appl. Electrochem., 1982, 12:669-680
  • 8Singh P, Guidotti R A, Reisner D. Ac impedance measurements of molten salt thermal batteries. J. Power Sources, 2004, 138 (1/2):323-326
  • 9Vissers D R, Redey L, Kaun T D. Molten salt electrolytes for high temperature lithium cells. J. Power Sources, 1989, 26 (1/2): 37-48
  • 10Masset P, Henry A, Poinso J Y, Poignet J C. Ionic conductivity measurements of molten iodide-based electrolytes. J. Power Sources, 2006, 160 (1): 752 -757

共引文献11

同被引文献9

引证文献1

二级引证文献10

化工学报
2012年 第5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