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HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 652-654Research Progresses of Two Kinds of Novel...

Research Progresses of Two Kinds of Novel Electrolyte Lithium Salts: Lithium Bis(oxalato) Borate and Lithium Oxalyldifluroborate

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Abstract:

Lithium bis(oxalato)borate (LiBOB) and lithium oxalyldifluroborate (LiODFB) are promising boron-based lithium salts for lithium ion batteries. Advantages, disadvantages, and recent developments of each lithium salt were introduced respectively in this article. In addition, ionic conductivities and compatibilities with electrode materials were emphatically reviewed.

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Advances in Materials and Materials Processing

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Periodical:

Advanced Materials Research (Volumes 652-654)

Pages:

896-900

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.652-654.896

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Online since:

January 2013

Authors:

Tao Yu, Hong Ming Zhang, Xiao Li Xu, Xiao Ling Cui, Li Ping Mao

Keywords:

Electrochemical Preformances, Electrolyte Lithium Salts, Lithium Bis(oxalato) Borate(LiBOB), Lithium Oxalyldifluroborate (LiODFB)

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© 2013 Trans Tech Publications Ltd. All Rights Reserved

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[1] A. Hammami, N. Raymond and M. Armand: Nature (London) Vol. 424 (2003), p.635.

[2] H. Markusson and P. Johansson: Electrochem. Solid-State Lett. Vol. 8 (2005), p. A215.

[3] G.V. Zhang, K. Xu and T.R. Jow: Electrochem. Solid-State Lett. Vol. 7 (2004), p. A224.

[4] K. Xu, S.S. Zhang and T.R. Jow: J. Power Sources Vol. 143 (2005), p.197.

[5] S.S. Zhang: Electrochem. Commun Vol. 8 (2006), p.1423.

[6] K. Xu, S.S. Zhang and B.A. Poese: Electrochem. Solid-State Lett. Vol. 11 (2002), p. A259.

[7] K. Xu, S.S. Zhang and T.R. Jow: Electrochem. Solid-State Lett. Vol. 6 (2003), p. A117.

[8] K. Xu, U. Lee and S.S. Zhang: Electrochem. Solid-State Lett. Vol. 6 (2003), p. A144.

[9] U. Wietelmann, U. Lischka and M. Wegner, U. S. Patent US 6, 506, 516. (2003).

[10] W. Xu, C. A. Angell, Electrochem. Solid-State Lett. Vol. 4 (2001), p. E1.

[11] B.T. Yu, W.H. Qiu, F.S. Li, Electrochem. Solid-State Lett. Vol. 9 (2006), p. A1.

[12] S.Y. Li, Y.Y. Zhao and X.M. Shi: Electrochim. Acta Vol. 65 (2012), p.221.

[13] Herzig, C. Schreiner, D. Gerhard, P. Wasserscheid, H. J. Gores, J. Fluorine Chem. Vol. 128 (2007), p.612.

[14] Zhang S S. J. Electrochem Commun. Vol. 8 (2006), p.1423.

[15] S.Y. Li, W. Zhao and X.L. Cui: submitted to Electrochim. Acta.

[16] V. Aravindan, J. Gnanaraj and S. Madhavi: Chem. Eur Vol. 17 (2011), p.14326.

[17] S.Y. Li, B.C. Li and X.L. Xu: J. Power Sources Vol. 209 (2012), p.295.

[18] S.Y. Li, Y.Y. Zhao and X.M. Shi: Electrochim. Acta Vol. 65 (2012), p.221.

[19] L.P. Mao, B.C. Li and X.L. Cui: Electrochim. Acta, Vol. 79 (2012), p.197.

[20] S.Y. Li, X.L. Xu and X.M. Shi: J. Power Sources Vol. 217 (2012), p.503.

[21] M.Q. Xu, L. Zhou and L.S. Hao: Journal of Power Sources Vol. 196 (2011), p.6794.

[22] T. Yu, H.M. Zhang, S.Y. Li: submitted to J. Electrochem. Soc.

[23] S.Y. Li, P.H. Ma and S.T. Song: Russ J Electrochem Vol. 44 (2008), p.1144.

[24] B.T. Yu, W.H. Qiu and F.S. Li: J Power Sources Vol. 166 (2007), p.499.

[25] Y.X. Guo, Z.G. Yin and Z.Y. Tao: J Power Sources Vol. 184 (2008), p.513.

[26] M.H. Fu, K.L. Huang and S.Q. Liu: J Power Sources Vol. 195 (2010), p.862.

[27] W. Xu, Z. Deng and X. Zhou, 210th ECS Meet. Abstr. Electrochem. Soc. Vol. 602 (2006), p.251.

[28] E. Zinigrad, L.L. Asraf and J.S. Gnanaraj: 210th ECS Meet. Abstr. Electrochem. Soc. Vol. 602 (2006), p.245.

[29] K. Xu, U. Lee and S. Zhang: 208th ECS Meet. Abstr. Electrochem. Soc. Vol. 502 (2006), p.219.

[30] J. Li, K.Y. Xie and Y.Q. Xie: J Power Sources Vol. 195 (2010), p.5344.

[31] Z.A. Zhang, X.J. Chen and F.Q. Li: J Power Sources Vol. 195 (2010), p.7397.

[32] M.Q. Xu, L. Zhou and L.S. Hao: J Power Sources Vol. 196 (2011), p.6794.

[33] H.Q. Gao, Z.A. Zhang and Y.Q. Lai: J Cent South Univ T Vol. 15 (2008), p.830.