Methyl methacrylate (MMA)-grafted polypropylene (PP) separator for rechargeable lithium metal battery

ECS Electrochemistry Letters

Volumn 1, Issue 4, 2012, Pages

  Ju, Hua ^a   Li, Zhihu ^a   Ju, Lan ^b   Xu, Yanhui ^a  

^a SOOCHOW UNIVERSITY   (China)

^b ZHEJIANG TEXTILE AND FASHION COLLEGE   (China)

Author keywords

[No Author keywords available]

Indexed keywords

GRAFTED POLYPROPYLENE; IMPEDANCE MEASUREMENT; INTERFACE REACTIONS; INTERFACE RESISTANCE; METHYL METHACRYLATES; REVERSIBLE CAPACITY; STAINLESS STEEL ELECTRODE; SURFACE FUNCTIONAL GROUPS;

ASSOCIATION REACTIONS; CYCLIC VOLTAMMETRY; ELECTROLYTES; ESTERS; FUNCTIONAL GROUPS; GRAFTING (CHEMICAL); GRAPHITE ELECTRODES; LITHIUM; REACTION KINETICS; SEPARATORS;

POLYPROPYLENES;

EID: 84880419668     PISSN: 21628726     EISSN: 21628734     Source Type: Journal    
DOI: 10.1149/2.008203eel     Document Type: Article

References (16)

1. Z. H. Li, D. M. Zhang, and F. X. Yang, J Materials Science, 44, 2435 (2009).
2. W. J. Zhang, J Power Sources, 196, 13 (2011).
3. H. Mukaibo and T. Momma, Nanotechnologies for Li Batteries, in Electrochemical Nanotechnologies, Nanostructure Science and Technology, T. Osaka et al. (eds.), Electrochemical Nanotechnologies, Part 1, Pages 7-22, (2010).
4. S. D. Jones and J. R. Akridge, J Power Source, 54, 63 (1995).
5. Y. J. Hwang, K. S. Nahm, T. P. Kumar, and A. M. Stephan, J Membrane Science, 310, 349 (2008).
6. Z. H. Li, L. Ju, D. C. Li, J. W Zheng, and Y. H. Xu, Ionics, 18, 673 (2012).
7. S. S. Zhang, J Power Sources, 162, 1379 (2006).
8. M. Ishikawa and M. Morita, Current issues of metallic lithium anode, in lithium Batteries, Science and Technology, edited by G A Nazri and G Pistoia, P297-304, Springer, (2009).
9. See supplementary material, Fig S1 at http://dx.doi.org/10.1149/2. 008203eel.html.
10. Y. H. Xu, Y. Chen, J. Wu, D. C. Li, H. Ju, and J. W. Zheng, Int J Hydrogen Energy, 35, 6366 (2010).
11. Note. Here we discuss the impedance between the electrolyte (separator) and the graphite. The EIS patterns in Fig. S2 were obtained at Li/PP/PP/graphite cell and Li/PP/PP-MMA/graphite cell, respectively. The use of the additional PP separator is to eliminate the disturbance of the interface between the lithium metal and the electrolyte (separator).
12. See supplementary material, Fig S2 at http://dx.doi.org/10.1149/2. 008203eel.html.
13. K. M. Abraham, Z. Jiang, and B. Carroll, Chem. Mater., 9, 1978 (1997).
14. T. Minami, M. Tatsumisago, M. Wakihara, C. Iwakura, S. Kohjiya, and I. Tanaka, Solid State Ionics for Batteries, P115, Springer-Verlag Tokuo (2005).
15. See supplementary material, Fig S3 at http://dx.doi.org/10.1149/2. 008203eel.html.
16. See supplementary material, Fig S4 at http://dx.doi.org/10.1149/2. 008203eel.html.