Page 650 - Handbook of Battery Materials
P. 650
624 17 Liquid Nonaqueous Electrolytes
Lithium Batteries, The Electrochemical Batteries, Chapter 11 (ed. S.S. Zhang),
Society Proceedings Series, PV 80-4 Transworld Research Network, Kerala,
(eds B.G. Owens and N. Margalit), The in published 2008.
Electrochemical Society, Princeton, NJ, 434. Schweiger, H., Multerer, M.,
p. 332. Schweizer-Berberich, M., and Gores,
417. Tobishima, S.-I. and Yamaji, A. (1984) H.J. (2005) J. Electrochem. Soc., 152,
J. Power Sources, 12, 53. A577.
418. Morita, M., Hayashida, H., and 435. Onsager, L. (1945) Ann. N.Y. Acad. Sci.,
Matsuda, Y. (1987) J. Electrochem. 46, 241.
Soc., 134, 2107. 436. Spiro, M. (1973) in Physical Chemistry
419. Atkins, P., Hefter, G.T., and Singh, P. of Organic Solvent Systems (eds A.K.
(1991) J. Power Sources, 36, 17. Covington and T. Dickinson), Plenum
420. Whitney, T.A. and Foster, D.L. (1987) Press, New York, pp. 615–680.
US Patent 4, 670,363 Chem. Abstr. 437. Stokes, R.H. and Levien, B.J. (1946) J.
1987, 107, 80996. Am. Chem. Soc., 68, 1852.
421. Lee, H.S., Yang, X.Q., McBreen, J., 438. Hittorf, W. (1901) Z. Phys. Chem., 39,
Choi, L.S., and Okamoto, Y. (1995) in 612.
Rechargeable Lithium and Lithium-Ion 439. Hittorf, W. (1903) Chem. Rev., 43, 239.
Batteries, The Electrochemical Society 440. Washburn, E.W. (1909) J. Am. Chem.
Proceedings Series, PV 94-28 (eds S. Soc., 31, 322.
Megahead, B.M. Barnett, and L. Xie), 441. Steel, B.J. and Stokes, R.H. (1958) J.
Pennington, NJ, The Electrochemical Phys. Chem., 62, 450.
Society, p. 452. 442. Spiro, M. (1971) in Physical Methods
422. Lee, H.S., Sun, X., Yang, X.Q., of Chemistry, Part II A: Electrochemical
McBreen, J., Callahan, J.H., and Choi, Methods, Chapter 4 (eds A. Weissberger
L.S. (2000) J. Electrochem. Soc., 147,9. and B.W. Rossiter), Interscience Pub-
423. McBreen, J., Lee, H.S., Yang, X.Q., lishers, New York.
and Sun, X. (2000) J. Power Sources, 89, 443. Mizuhata, M., Ito, F., and Deki, S.
163. (2005) J. Power Sources, 146, 365.
424. Lee, H.S., Yang, X.Q., Sun, X., and 444. Reger, A., Peled, E., and Gileadi, E.
McBreen, J. (2001) J. Power Sources, (1978) J. Phys. Chem., 83, 869.
97–98, 566. 445. Spiro, M. (1956) J. Chem. Educ., 33,
425. Lee, Y.M., Seo, J.E., Choi, N., and Park, 464.
J. (2005) Electrochim. Acta, 50, 2843. 446. Paul, R.C., Singla, J.P., and Narula,
426. Zhang, S.S. and Angell, C.A. (1996) J. S.P. (1969) J. Phys. Chem., 73, 741.
Electrochem. Soc., 143, 4047. 447. Nernst, W. (1900) Nach. Ges. Wiss.
427. Gores, H.J. and Barthel, J. (1980) J. So- Goettingen, 1, 68–69.
lut. Chem., 9, 939. 448. Basili, A., Mussini, P.R., Mussini, T.,
428. Zugmann, S. and Moosbauer, D. Rondinini, S., Sala, B., and Vertova, A.
(2010) in preparation. (1999) J. Chem. Eng. Data, 44, 1002.
429. Ding, M.S., Xu, K., and Jow, T.R. 449. Hoare, J.P. and Wiese, C.R. (1974) J.
(2005) J. Electrochem. Soc., 152 (1), Electrochem. Soc., 121, 83.
A132. 450. Bruce, P.G. and Vincent, C.A. (1987) J.
430. Ding, M.S. and Jow, T.R. (2004) J. Elec- Electroanal. Chem., 225,1.
trochem. Soc., 151 (12), A2007. 451. Mauro, V., D’Aprano, A., Croce, F., and
431. Ein-Ely, Y., Thomas, S.R., Chadha, R., Salomon, M. (2005) J. Power Sources,
Blakley, T.J., and Koch, V.R. (1997) J. 141, 167.
Electrochem. Soc., 144, 823. 452. Evans, J., Vincent, C.A., and Bruce,
432. Uchiyama, M., Slane, S., Plichta, E., P.G. (1987) Polymer, 28, 2324.
and Salomon, M. (1987) J. Power 453. Fouache-Ayoub, S., Garreau, M.,
Sources, 20, 279. Prabhu, P., and Thevenin, J. (1990)
433. Gores, H.J., Schweiger, H., and J. Electrochem. Soc., 137, 1659.
Multerer, M. (2007) in Advanced Ma- 454. Aihara, Y., Bando, T., Nakagawa, H.,
terials and Methods for Lithium Ion Yoshida, H., Hayamizu, K., Akiba, E.,
