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Layered LiNiO

Julien, C., Letranchant, C., Lemal, M., Ziolkiewicz, S., Castro-Garcia, S., Layered LiNio 5Coo 502 compounds synthesized by a glycine-assisted combustion method for lithium batteries, J. Mater. Sci. 37,2367-2375 (2002). [Pg.508]

The layered LiNiO is expected to be a cathode material for the next generation of lithium-ion battery. Figure 16.1 shows the relationship between discharge capacity and voltage for cathode materials for the lithium-ion battery. It means that LiNiO has a higher capacity compared with other materials. In spite of this, LiNiO compounds have not been used in commercially available lithium-ion batteries. It is thought that LiNiOj presents the following potential problems ... [Pg.315]

Ngala JK, Chernova NA, Ma M, Mamak M, Zavalij PY, Whittingham MS (2004) The synthesis, characterization and electrochemical behavior of the layered LiNio.4Mno.4Coo.2O2 compound. J Mater Chem 14 214—220... [Pg.40]

Meng YS, Ceder G, Grey CP, Yoon W-S, Shao-Hom Y (2004) Understanding the crystal structure of layered LiNio.5Mno.5O2 by electron diffraction and powder diffraction simulation. Eiectrochem Solid State Lett 7(6) A155-A158... [Pg.282]

FIGURE 19.2 Self-heat rates of fully charged 18,650-type cells with spinel, layered LINIo.33Coo.33Mno.33O2 and olivine cathodes and graphite anodes In 1.2 mol/l LIPFo In ethylene carbonate (EC) and ethyl methyl carbonate (EMC)... [Pg.447]

Julien C, Letranchant C, Rangan S, Lemal M, ZioUdewicz S, Castro-Garcia S, El-Farh L, Benkaddour M (2000) Layered LiNio.5Coo.5O2 cathode materials grown by soft-chemistry via various solution methods. Mater Sci Eng B 76 145-155... [Pg.156]

Yue P, Wang Z, Guo H, Xiong X, Li X (2013) A low tmip ture fluorine substitution on the electrochemical performance of layered LiNio.8Coo.iMno.i02 zFz cathode materials. [Pg.288]

Similar irreversible processes have been previously observed by Aurbach et al. on LiNi02 ° and Croce et al. on LiNio.75Coo.2502 ° by slow scan cyclic volta-mmetric (SSCV) measurements. However, in their EIS studies the former authors did not observe any obvious potential-dependence for the resistance associated with the surface layer ° but rather an invariant resistance in the range between 3.6 and 4.2 V. This latter observation is in direct disagreement... [Pg.104]

Ohzuku, T. Makimura, Y. Layered lithium insertion material of LiNio.5Mno.5O2 a possible alterative to LiCo02 for advanced lithium-ion batteries. Chem. Lett. 2001, 30, 744. [Pg.1482]

Lithiated transition metal oxides These compounds can be classified via their structure layered compounds (e.g., LiCo02, LilMnNiCoJOa) and spinel (e.g., LiMn204, LiNio sMni 5O4) [3]. [Pg.284]

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