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Determination of anions in lithium-ion batteries electrolyte by ion chromatography

Bin-He Zhu Cheng-Zhu Ni Na-Ni Wang Xun-Yan Zhao Wei-Qiang Guo Pei-Min Zhang Jia-Jie Zhang Su-Qing Chen Wei-De Lv Yan Zhu

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引用本文: Bin-He Zhu,  Cheng-Zhu Ni,  Na-Ni Wang,  Xun-Yan Zhao,  Wei-Qiang Guo,  Pei-Min Zhang,  Jia-Jie Zhang,  Su-Qing Chen,  Wei-De Lv,  Yan Zhu. Determination of anions in lithium-ion batteries electrolyte by ion chromatography[J]. Chinese Chemical Letters, 2016, 27(6): 864-866. doi: 10.1016/j.cclet.2016.01.037 shu
Citation:  Bin-He Zhu,  Cheng-Zhu Ni,  Na-Ni Wang,  Xun-Yan Zhao,  Wei-Qiang Guo,  Pei-Min Zhang,  Jia-Jie Zhang,  Su-Qing Chen,  Wei-De Lv,  Yan Zhu. Determination of anions in lithium-ion batteries electrolyte by ion chromatography[J]. Chinese Chemical Letters, 2016, 27(6): 864-866. doi: 10.1016/j.cclet.2016.01.037 shu

Determination of anions in lithium-ion batteries electrolyte by ion chromatography

  • a Department of Chemistry, Xixi Campus, Zhejiang University, Hangzhou 310028, China;

  • b Department of Medicine, Zhejiang Academy of Traditional Chinese Medicine, Hangzhou 310007, China;

  • c School of Pharmaceutical and Chemical Engineering, Taizhou University, Taizhou 317000, China;

  • d Hangzhou Vocational & Technical College, Hangzhou 310018, China

  • 基金项目:

    This research was financially supported by Key Laboratory of Health Risk Appraisal for Trace Toxic Chemicals of Zhejiang Province (Nos. 2014006, 2014007), National Important Project on Science Instrument (No. 2012YQ09022903) and Zhejiang Provincial Natural Science Foundation of China (Nos. LZ16B050001, LY15B050001, LY12B05003, LQ13B050001, Y13B020001).

摘要: A sensitive and accurate method based on ion chromatography was established for determination of five lithium salts in lithium-ion batteries electrolytes. Chromatographic analyses were carried out on an anion exchange column at flow rate of 1 mL/min. Under the optimal conditions, five target anions (BF4-, PF6-, TFSI-, BOB- and FSI-) exhibited satisfactory linearity with a correlation coefficient of 0.9996. The relative standard derivations of the target anions were less than less than 0.94% (n = 7). The limits of detections were in the range of 0.068-0.29 mg/L with average spiked recoveries ranging from 96.8% to 105.1%.

English

    1. [1] Y.S. Lee, M.W. Cheng, Intelligent control battery equalization for series connected lithium-ion battery strings, IEEE Trans. Ind. Electron. 52 (2005) 1297-1307.

    2. [2] L.G. Lu, X.B. Han, J.Q. Li, J.F. Hua, M.G. Ouyang, A review on the key issues for lithium-ion battery management in electric vehicles, J. Power Sources 226 (2013) 272-288.

    3. [3] S.S. Zhang, K. Xu, T.R. Jow, Study of LiBF4 as an electrolyte salt for a Li-ion battery, J. Electrochem. Soc. 149 (2002) A568-A590.

    4. [4] M. Dahbi, F. Ghamouss, F. Tran-Van, D. Lemordant, M. Anouti, Comparative study of EC/DMC LiTFSI and LiPF6 electrolytes for electrochemical storage, J. Power Sources 196 (2011) 9743-9750.

    5. [5] K. Xu, S.S. Zhang, T.R. Jow, X. Wu, C.A. Angell, LiBOB as salt for lithium-ion batteries: a possible solution for high temperature operation, Electrochem. Solid-State Lett. 5 (2002) A26-A29.

    6. [6] H.B. Han, S.S. Zhou, D.J. Zhang, et al., Lithium bis (fluorosulfonyl) imide (LiFSI) as conducting salt for nonaqueous liquid electrolytes for lithium-ion batteries: physicochemical and electrochemical properties, J. Power Sources 196 (2011) 3623-3632.

    7. [7] H.J. Yuan, Z. Chen, J.S. Liu, J.L. Wang, Effect of lithium salt concentration on performance of high-rate discharge Li-ion battery, Battery Bimonthly 42 (2012) 337-339.

    8. [8] L. Terborg, S. Weder, F. Blaske, et al., Investigation of thermal aging and hydrolysis mechanisms in commercial lithium ion battery electrolyte, J. Power Sources 242 (2013) 832-837.

    9. [9] H. Saruwarari, T. Kuboki, T. Kishi, S. Mikoshib, N. Takami, Imidazolium ionic liquids containing LiBOB electrolyte for lithium battery, J. Power Sources 195 (2010) 1495-1499.

    10. [10] V. Kraft, M. Grützke, W. Weber, et al., Two-dimensional ion chromatography for the separation of ionic organophosphates generated in thermallydecomposed lithium hexafluorophosphate-based lithium ion battery electrolytes, J. Chromatogr. A 1409 (2015) 201-209.

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  • 收稿日期:  2015-08-17
  • 修回日期:  2015-10-16
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