Lithium-ion batteries cathode

An answer therefore could be a less time consuming and novel mnltistep Continnnm Monte Carlo technique to solve problems created by multiphenomena characteristics of electrochemical processes and power sources. In the case shown for a lithium ion battery cathode material three different types of Continuum Monte Carlo codes are written to solve three different electrochemical phenomena. All the codes are based on fundamental electrochemical principles, therefore invaluable physics is not lost while deriving useable data. [Pg.335]

Figure 10. Schematic representation of the processes occurring in the discharge process of LiCo02 as lithium ion battery cathode material, Li foil is employed as the anode and reference electrode for simulation purpose.

Kucinskis, G., Bajars, G., and Kleperis.). (2013). Graphene in lithium ion battery cathode materials A review, J. Power Sources, 240, pp. 66-79. [Pg.412]

W. Choi, A. Manthiram, Comparison of metal ion dissolutions from lithium ion battery cathodes, J. Electrochem. Soc. 2(X)6, 153, A1760-A1764. [Pg.317]

Vetter J., Holzapfel M., Wuersig A., Scheifele W, Ufheil J., Novak P. In situ study on CO2 evolution at lithium-ion battery cathodes, J. Power Sources 2006, 159, 277-281. [Pg.359]

Zheng H et al (2012) Cooperation between active material, polymeric binder and conductive carbon additive in lithium ion battery cathode. J Phys Chem C 116 4875-4882. doi 10.1021/jp208428w... [Pg.29]

Ong, S.P., and Ceder, G. (2011) Novel mixed polyanions lithium-ion battery cathode materials predicted by high-throughput ah initio computations. [Pg.365]

Balke N, Jesse S, Morozovska AN, Ehseev E, Chung DW, Kim Y, Adamczyk L, Garcia RE, Dudney N, Kalinin SV (2010) Nanoscale mapping of ion diffusion in a lithium-ion battery cathode. Nat Nano 5(10) 749-754. doi http //www.natme.coni/nnano/joumal/v5/nl0/abs/ nnano.2010.174.html supplementary-infonnation... [Pg.386]

Menzel M, Schlifke A, Falk M et al (2013) Surface and in-depth characterization of lithium-ion battery cathodes at different cycle states using confocal micro-X-ray fluorescence-X-ray absorption near edge stmcture analysis. Spectrochim Acta Part B At Spectrosc 85 62-70. doi 10.1016/j.sab.2013.04.001... [Pg.418]

Zhang H, Cao G, Wang Z et al (2008) High-rate lithium-ion battery cathodes using nanostmetured polyaniline/carbon nanotube array composites. Electroehem Solid-State Lett 11(12) A223-A225... [Pg.669]

Zhang, X., Sastry, A.M., and Shyy, W. (2008) Intercalation-induced stress and heat generation within single lithium-ion battery cathode particles, j. Electrochem. Soc., 155 (7), A542-A552. [Pg.901]

Various processes for fabrication of lithium ion battery cathodes are discussed in this chapter. All processes except the molten carbonate method have been widely applied in research and production. Table 28.5 summarizes the performance of LiCo02 electrodes fabricated by each of these processes. The electrochemical performance is highly dependent on the processing conditions. [Pg.955]

Wu, X., Wang, X., Zhang, Y. 2013. Nanowormlike Li2FeSi04-C composites as lithium ion battery cathodes with superior high-rate capability. [Pg.158]

Oh, J.M., Geiculescu, O., DesMarteau, D., Creager, S. 2011. lonomer binders can improve discharge rate capability in lithium-ion battery cathodes. [Pg.523]

Yung DK, Kim MP, Lee HW, Riccardo R (2009) Spinel LiMn204 nanorods as lithium-ion battery cathodes. Nano Lett 8 3948-3952... [Pg.196]

Chen ZH, Huang KL, Liu SQ, Wang HY (2010) Preparation and characterization of spinel LiMn204 nanorods as lithium-ion battery cathodes. Trans Nonferrous Met Soc China... [Pg.196]

G. Hautier, A. Jain, S.P Ong, B. Kang, C. Moore, R. Doe and G. Ceder, Phosphates as lithium-ion battery cathodes An evaluation based on high-throughput ab... [Pg.254]

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