Lithium battery materials

M. Rajan, Press release. Lithium battery sales to reach 2.7 Billion by 2009, in reference to RGB-21 ON Lithium Batteries Materials and Markets, Business Communications Company, Norwalk, August 19, 2004. [Pg.348]

Jamnik J, Maier J. Nanocrystallinity effects in lithium battery materials - aspects of nanoionics. Part IV. Phys Chem Chem Phys. 2003 5(23) 5215-20. [Pg.34]

Kosova N.V. Mechanochemical synthesis of cathode matenals for lithium batteries. Materials for lithium-ion batteries. NATO Science Series, 3, High Technology. 2000, 85 497-500. [Pg.142]

D.R. Sadoway, A.M. Mayes, 2002, Portable Power Advanced Rechargable Lithium Batteries , Materials Research Society Bulletin 27 590. [Pg.287]

W. Weppner, Solid State Electrochemical Methods for the Characterization of the Kinetics, Thermodynamics and Phase Equilibria of Lithium Battery Materials, in C. JuUen, Z. Stoynov (Eds.), Materials for Lithium-Ion Batteries, Kluwer Academic Publishers, Dordrecht, NL, 2000, p. 451. [Pg.100]

Jamnik, ]., and Maier, J. (2003]. Nanocrystallinity effects in lithium battery materials Aspects of nano-ionics. Part IV. Phys. Chem. Chem. Phys., 5(23] pp. 5215-5220. [Pg.249]

R. Marom, S. F. Amalraj, N. Leifer, D. Jacob, D. Aurbach, A review of advanced tmd practical lithium battery materials, J. Mater. Chem. 2011, 21, 9938-9954. [Pg.316]

The experimental and theoretical paper on The behaviour of lithium electrodes in propylene and ethylene carbonate by Aurbach et al. in 1992 [35] was likely the first to predict electrochemical stabilities of lithium battery materials specifically -using both energy differences and the HOMO-LUMO approach. The energies of EC, PC, and both linear and cyclic radical anions thereof were calculated free or coordinated to LP (Fig. 9.4). From the reduction energies the authors suggested EC to be more prone to reduction. However, different interpretations were possible depending on the assumptions made about the reduction products. As visualized in... [Pg.413]

APPLICATIONS OFMOSSBAUER SPECTROSCOPY IN THE STUDY OF LITHIUM BATTERY MATERIALS... [Pg.552]

During the last decade, the use of spectroscopic techniques based on the Mossbauer effect to study lithium battery materials has increased dramatically. If we take into account that the first lithium-ion product emerged at the end of the eighties, there has been a 10-year delay before the scientific production on Mossbauer spectroscopy has been frequently used in the study of electrode materials. A simple search in SciFinder-CAS of published papers on Mossbauer and lithium batteries during the last 35 years reveals this tendency (Fig. 28.1). [Pg.552]

Stancovski, V. and BadUescu, S. (2014) In-situ Raman spectroscopic-electrochemical studies of lithium battery materials a historical overview. Journal of Applied Electrochemistry, 44, 23-43. [Pg.161]

Klein L.C., Laby L., Lous G. Sol-gel processing for lithium battery materials. In Sol-Gel Processing of Advanced Ceramics, Gnanam F.D., ed. New Delhi Oxford/IBH, 1996, pp. 205-222 Kordesch K., Simader G. Fuel Cells and their Applications. New York VCH-Weinheim, 1996 Kreuer K.D. On the development of proton conducting materials for technological applications. [Pg.1514]

Ficher CAJ, Prieto VMH, Islam MS (2008) Lithium battery materials LtMPOa (M=Mn, Fe, Co and Ni) insights into defect association, transport mechanisms and doping behaviour. Chem Mater 20 5907-5915... [Pg.66]

Marom R, Amahaj SF, Leifer N, Jacob D, Aurbach D (2011) A review of advanced and practical lithium battery materials. J Mater Chem 21 (27) 9938-9954. doi 10.1039/ c0[jm04225k... [Pg.384]

Jurgen Otto Besenhard was an exceptional and devoted scientist and he leaves behind an enduring record of achievements. He was considered as a leading authority in the field of lithium battery materials. His works will always assure him a highly prominent position in the history of battery technology. [Pg.995]

No memory effect This differs from that of Ni-Cd and Ni-MH batteries, and leads to good cycling performance for lithium-ion batteries. Although recently, there have been some claims of memory effects for some lithium battery materials, this has very weak effects on cycling. [Pg.15]

Jamnik, J., Maier, J. 2003. Nanocrystallinity effects in lithium battery materials—... [Pg.122]

Crystal structures of Li2MnSi04 polymorphs (a) monoclinic (space group P2j/n) and (b) orthorhombic (space group Pmnl. (Reprinted with permission from Kuganafhan, N. and Islam, M.S., Li2MnSi04 lithium battery material Atomic-scale study of defecfs, lithium mobility, and trivalent dopants., Chem. Mater., 21, 5196-5202. Copyright 2009 American Chemical Society.)... [Pg.138]

Kuganathan, N., Islam, M.S. 2009. Li2MnSi04 lithium battery material Atomic-... [Pg.158]

Fisher, C. A. J., Prieto, V. M. H. Islam, M. S. Lithium battery materials LiMP04 (M = Mn, Fe, Co and Ni) Insights into defect association, transport mechanism and doping behavior. Chem. Mater., 20, 5907-5915 (2008). [Pg.303]

Alifantis KE, Hackney SA, Kumar R (2010) High energy density lithium batteries materials, engineering, applications. Wiley VCH, Weinheim... [Pg.398]

N. Kuganathan and M.S. Islam, Li2MnSi04 lithium battery material Atomic-scale study of defects, lithium mobility, and trivalent dopants, Chem. Mater. 21, 2009,5196-5202. [Pg.250]

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