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By Dongfang Yang

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Gu, C. B. Zhu, P. A. van Aken, J. Maier. Encapsulation of Sn@carbon Nano‐ particles in Bamboo-like Hollow Carbon Nanofibers as an Anode Material in LithiumBased Batteries. J. Am. Chem. Soc. 131 (2009) 15984. [77] Y. Yu, L. Gu, C. L. Wang, A. Dhanabalan, P. A. van Aken, J. Maier. Encapsulation of Sn@carbon Nanoparticles in Bamboo-like Hollow Carbon Nanofibers as an Anode Material in Lithium-Based Batteries. Angew. Chem. Int. Ed. 48 (2009) 6485. [78] ] Z. X. Yang, G. D. Du, Z. P. Guo, X. B. Yu, S.

5772/62319 Abstract Rechargeable lithium-ion battery (LIB) cathodes consist of transition metal oxide material, which reversibly (de)intercalates lithium at a high potential difference versus a carbon anode. Manganese oxide cathode material offers lower cost and toxicity than the normally used cobalt. However, LiMn2O4 suffers from capacity fading, Mn dissolution at high temperatures, and poor high rate capability. Its ultimate performance, however, depends on the morphology and electrochemical properties.

G. Lee, H. Y. Lee, S. W. Kim, C. R. Park. Effects of surrounding confine‐ ments of Si nanoparticles on Si-based anode performance for lithium ion batteries. Electrochim. Acta 56 (2010) 790. [71] ] L. -H. Jung, A. J. Medford, X. Zhang. J. Mater. Chem. 19 (2009) 4992. [72] L. Ji, X. Zhang. Fabrication of porous carbon/Si composite nanofibers as high-capacity battery electrodes. Electrochem. Commun. 11 (2009) 1146. [73] T. H. Wang, Y. M. -S. -S. Seo, J. W. Choi. Electrospun Core−Shell Fibers for Robust Silicon Nanoparticle-Based Lithium Ion Battery Anodes.

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