Page 638 - Handbook of Battery Materials

P. 638

612 17 Liquid Nonaqueous Electrolytes

7. Abraham, K.M. (1985) in Lithium. Cur- 23. Linden, D.E. and Reddy, T.B. (eds)
rent Application in Science, Medicine and (2002) Handbook of Batteries, 3rd edn,
Technology, Chapter 11 (ed. R.O. Bach), McGraw-Hill, New York.
John Wiley & Sons, Inc., New York. 24. Xu, K. (2004) Chem. Rev., 104,
8. Abraham, K.M. (1993) Electrochim. 4303–4418.
Acta, 38, 1233. 25. Nakajima, T. and Groult, H. (eds)
9. Abraham, K.M. (1990) in Rechargeable (2005) Fluorinated Materials for Energy
Lithium Batteries, The Electrochem- Conversion, Elsevier.
ical Society Proceedings Series, PV 26. von Schalkwijk, W. and Scrosati, B.
(eds) (2002) Advances in Lithium-Ion
90-5 (eds S. Subbarao, V.R. Koch, B.B.
Batteries, Kluwer Academic, New York.
Owens, and W.H. Smyrl), The Electro-
27. Yamamoto, O. and Wakihara, M.
chemical Society, Pennington, NJ, p.
(1998) Lithium-Ion Batteries, Wiley-VCH
1.
Verlag GmbH, New York, Weinheim.
10. Salomon, M. (1989) J. Power Sources,
28. Balbuena, P.B. and Wang, Y. (2004)
26,9. Lithium-Ion Batteries: Solid-Electrolyte
11. Salomon, M. (1992) in Proceedings of
Interphase, Imperial College Press,
the 4th International Rechargeable Bat-
London, p. 365.
tery Symposium (eds S. Wolsky and N. 29. Yoshio, M., Brodd, R.J., and Kozawa,
Marincic), Ansum Enterprises, Boca A. (eds) (2009) Lithium Ion Batteries,
Raton, FL. SpringerScience +BusinessMedia, LLC,
12. Ishikawa, M., Wen, S.Q., and Matsuda, 2009. doi: 10.1007/978-0-387-34445-4
Y. (1993) J. Power Sources, 45, 229. 30. Huggins, R.A. (2009) Advanced
13. Salomon, M. and Scrosati, B. (1996) Batteries, Material Science Aspects,
Gazz. Chim. Ital., 126, 415. SpringerScience +BusinessMedia, LLC,
14. Xie, L., Fouchard, D., and Megahed, S. 2009. doi: 10.1007/978-0-387-76424-5
(1995) Mater. Res. Soc. Symp. Proc., 393, 31. Nazri, G.A. and Pistoia, G. (2009)
285. Lithium Batteries, Science and Technol-
15. Barthel, J. and Gores, H.J. (1994) in ogy, SpringerScience +BusinessMedia
Chemistry of Nonaqueous Electrolyte LLC 2003, ﬁrst softcover printing.
Solutions. Current Progress, Chapter 1 32. Winter, M. and Brodd, R.J. (2005)
(eds G. Mamontov and A.I. Popov), Chem. Rev., 105 (3), 1021.
Wiley-VCH Verlag GmbH, New York. 33. Ching, S., McDevitt, J.T., Peck, S.R.,
16. Barthel, J., Gores, H.J., Schmeer, G., and Murray, R.W. (1991) J. Electrochem.
and Wachter, R. (1983) Top. Curr. Soc., 138, 2308.
34. Geblewicz, G., Potter, R.J., and
Chem., 111, 33.
Schifrin, D.J. (1986) Trans. Inst. Met.
17. Gores, H.J. and Barthel, J.M.G. (1995)
Finish., 64, 134.
Pure Appl. Chem., 67, 919.
35. Gutmann, V. and Wychera, E. (1966)
18. Barthel, J. and Gores, H.J. (1985) Pure Inorg. Nucl. Chem. Lett., 2, 257.
Appl. Chem., 57, 1071.
36. Gutmann, V., Resch, G., and Linert, W.
19. Barthel, J., Wachter, R., and Gores,
(1982) Coord. Chem. Rev., 43, 133.
H.J. (1979) in Modern Aspects of Electro- 37. Marcus, Y. (1985) Ion Solvation,John
chemistry, vol. 13, Chapter 1 (eds B.E.
Wiley & Sons, Ltd, Chichester.
Conway and J.O.M. Bockris), Plenum,
38. Marcus, Y. (1984) J. Solution Chem., 13,
New York. 599.
20. Barthel, J., Buchner, R., and Gores, 39. Kamlet, M.J., Abboud, J.L.M.,
H.J. (1991) DECHEMA Monographien, Abraham, M.H., and Taft, R.W. (1983)
vol. 124, Wiley-VCH Verlag GmbH, J. Org. Chem., 48, 2877.
Weinheim, p. 65. 40. Kamlet, M.J. and Taft, R.W. (1976) J.
21. Gores, H.J. and Barthel, J. (1983) Am. Chem. Soc., 98, 377.
Naturwissenschaften, 70, 495. 41. Taft, R.W., Pienta, N.J., Kamlet, M.J.,
22. Doughty, D.H. (1996) SAMPE J., 32, and Arnett, E.M. (1981) J. Org. Chem.,
75. 46, 661.

633 634 635 636 637 638 639 640 641 642 643