综述了近年来锂离子电池的新型锂盐--双乙二酸硼酸锂(LiBOB)研究成果.介绍了双乙二酸硼酸锂的合成方法、组成与结构、化学和电化学性能及其与结构的关系,重点综述了对LiBOB电解液导电性的研究,对负极材料、正极材料稳定性的研究,以及与其他锂盐在锂离子电池中混合使用时的性能的研究等.总结了LiBOB的优缺点,指出了其进一步研究的方向.
Progress in studies of new salt lithium bis(oxalato)borate(LiBOB) as new electrolyte salts for lithium-ion batteries in recent years is reviewed. The methods of synthesis, components, structures, electrochemical properties and the relationship between the properties and the structures of LiBOB are introduced. And Emphasis is placed on the studies on application of this new salt in lithium-ion batteries, such as the conductance of LiBOB-based electrolytes, the stability of LiBOB-based electrolytes to the anode or cathode materials, the performance of LiBOB mixed with other lithium are reviewed. Finally,The advantages and disadvantages of LiBOB and its improved performance in future are indicated.
参考文献
| [1] | Lischka U;Wietelmann U;Wegner M .Lithium bisoxalatoborat,herstellung und verwendung als leitsalz[P].Germany,DE 19829030 C1,1999-06-07. |
| [2] | Xu W;Angell C A .LiBOB and its weakly coordinating anions,and the exceptional conductivity of their nonaqueous solutions[J].Electrochemical Solid-State Lett,2001,4(01):E1. |
| [3] | Xu K;Zhang S S;Jow T R .Electrochemical impedance study of graphite/electrolyte interface formed in LiBOB/PC electrolyte[J].Journal of Power Sources,2005,143(1-2):197. |
| [4] | Jiang J;Dahn J R .ARC studies of the thermal stability of three different cathode materials:LiCoO2,Li[Ni0.1 Co0.8-Mn0.1]O2,and LiFePO4,in LiPF6 and LiBOB EC/DEC electrolytes[J].Electrochemistry Communications,2004,6:39. |
| [5] | Jiang J;Dahn JR .ARC studies of the reaction between Li0FePO4 and LiPF6 or LiBOB EC/DEC electrolytes[J].Electrochemistry communications,2004(7):724-728. |
| [6] | G. V. Zhuang;K. Xu;T. R. Jow .Study of SEI Layer Formed on Graphite Anodes In PC/LiBOB Electrolyte Using IR Spectroscopy[J].Electrochemical and solid-state letters,2004(8):A224-A227. |
| [7] | Zavalij P Y;Yang S F;Whittingham M S .Structures of potassium,sodium and lithium bis(oxalato)borate salts from powder diffraction[J].Acta Cryst,2003,B59(06):753. |
| [8] | Ella Z G;Liraz L A;Gregory S et al.On the thermal behavior of Li bis(oxalato)borate LiBOB[J].Thermochimica Acta,2007,457:64. |
| [9] | B.-T. Yu;W.-H. Qiu;F.-S. Li .The Electrochemical Characterization of Lithium Bis(oxalato)borate Synthesized by a Novel Method[J].Electrochemical and solid-state letters,2006(1):A1-A4. |
| [10] | 仇卫华;王赛;刘伟 .一种采用微波法合成双草酸基硼酸锂的方法[P].中国,CN101020690A,2007-03-21. |
| [11] | Kang Xu;Shengshui Zhang;Bruce A. Poese .Lithium Bis(oxalato)borate Stabilizes Graphite Anode in Propylene Carbonate[J].Electrochemical and solid-state letters,2002(11):A259-A262. |
| [12] | Kang Xu;Unchul Lee;Shengshui Zhang .Chemical Analysis of Graphite/Electrolyte Interface Formed in LiBOB-Based Electrolytes[J].Electrochemical and solid-state letters,2003(7):A144-A148. |
| [13] | Xu K;Lee U;Zhang S S et al.Graphite/electrolyte interface formed in LiBOB-based electrolytes[J].Electrochem SolidState Lett,2004,7(09):A273. |
| [14] | Zhang S S;Xu K;Jow T R .EIS study on the formation of solid electrolyte interface in Li-ion battery[J].Electrochimica Acta,2006,51(8-9):1636. |
| [15] | Kang Xu;Unchul Lee;Sheng S. Zhang .Graphite/Electrolyte Interface Formed in LiBOB-Based Electrolytes/II. Potential Dependence of Surface Chemistry on Graphitic Anodes[J].Journal of the Electrochemical Society,2004(12):A2106-A2112. |
| [16] | Junwei Jiang;Hubert Fortier;J. N. Reimers .Thermal Stability of 18650 Size Li-Ion Cells Containing LiBOB Electrolyte Salt[J].Journal of the Electrochemical Society,2004(4):A609-A613. |
| [17] | Jow TR;Xu K;Ding MS;Zhang SS;Allen JL;Amine K .LiBOB-based electrolytes for Li-ion batteries for transportation applications[J].Journal of the Electrochemical Society,2004(10):A1702-A1706. |
| [18] | Amine K;Liu J;Belharouak I .Advanced cathode materials for high-power applications[J].Journal of Power Sources,2005,146(1/2):111. |
| [19] | Amine K;Liu J;Kang S et al.Improved lithium manganese oxide spinel/graphite Li-ion cells for high-power applications[J].Journal of Power Sources,2004,129(01):14. |
| [20] | Yu B T;Qiu W H;Li F S et al.Comparison of the electrochemical properties of LiBOB and LiPF6 in electrolytes for LiMn2O4/Li cells[J].Journal of Power Sources,2007,166(02):499. |
| [21] | Zhang S S;Xu K;Jow T R .LiBOB-based gel electrolyte Liion battery for high temperature operation[J].Journal of Power Sources,2006,154(01):276. |
| [22] | Deng-Tswen Shieh;Ping-Hsun Hsieh;Mo-Hua Yang .Effect of mixed LiBOB and LiPF_6 salts on electrochemical and thermal properties in LiMn_2O_4 batteries[J].Journal of Power Sources,2007(2):663-667. |
| [23] | Sai Wang;Weihua Qiu;Yunlong Guan;Bitao Yu;Hailei Zhao;Wei Liu .Electrochemical characteristics of LiM{sub}xFe{sub}(1-x)PO{sub}4 cathode with LiBOB based electrolytes[J].Electrochimica Acta,2007(15):4907-4910. |
| [24] | A. Abouimrane;I. J. Davidson .Solid Electrolyte Based on Succinonitrile and LiBOB Interface Stability and Application in Lithium Batteries[J].Journal of the Electrochemical Society,2007(11):A(1031-1034). |
| [25] | Zhang S S;Xu K;Jow T R .An improved electrolyte for the LiFePO4 cathode working in a wide temperature range[J].Journal of Power Sources,2006,159(01):702. |
上一张
下一张
上一张
下一张
计量
- 下载量()
- 访问量()
文章评分
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%