碳包覆二氧化锡/石墨烯复合电极在钠离子电池中的应用任务书

1. 毕业设计（论文）的内容和要求

论文采用碳包覆及石墨烯复合双重手段改善SnO2负极循环性能；论文首先采用水热法制备SnO2，碳包覆SnO2及碳包覆SnO2/石墨烯复合物；考察不同碳源对SnO2形貌及电化学性能的影响；考察碳纳米管、石墨烯对碳包覆SnO2组成、形貌及电化学性能的影响。

2. 参考文献

[1] M. B. Armand, Intercalation Electrodes [M]. New York: Plenum Press, 1980, 2: 145-161.[2] V. Palomares, P. Serras, I. Villaluenga, et al. Na-ion Btteries, Recent Advances and Present Challenges to Become Low Cost Energy Storage Systems [J]. Energy Environ. Sci., 2012, 5: 5884-590.[4] M.-S. Balogun, Y. Luo, W. Qiu, et al. A Review Of Carbon Materials and Their Composites with Alloy Metals for Sodium Ion Battery Anodes [J].Carbon, 2016, 98: 162-178.[5] S. Kikkawa, S. Miyazaki, M. Koizumi, Electrochemical Aspects of the Deintercalation of Layered AMO2 Compounds [J]. J. Power Sources, 1985, 14(1-3): 231-234.[6] Y.M. Li, L.Q. Mu, Y.S. Hu, et al. Pitch-derived Amorphous Carbon as High Performance Anode for Sodium-ion Batteries [J]. Energy Storage Mater. 2016, 2: 139-145.[7] V. L. Chevrier, G. Ceder, Challenges for Na-Ion Negative Electrodes [J]. J. Electrochem. Soc., 2011, 158(9): A1011-A1014. [8] C. Kim, K.-Y. Lee, I. Kim, et al. Long-Term Cycling Stability of Porous Sn Anode for Sodium-Ion Batteries [J]. J. Power Sources, 2016, 317: 153-158.[9] X. Xie, K. Kretschmer, J. Zhang, et al. Sn@CNT Nanopillars Grown Perpendicularly on Carbon Paper: A Novel Free-Standing Anode for Sodium Ion Batteries [J]. Nano Energy, 2015, 13: 208-217.[10] R. S. Kalubarme, J. Y. Lee, C. J. Park, Carbon encapsulated Tin Oxide Nanocomposites: An Efficient Anode for High Performance Sodium-Ion Batteries [J]. ACS Appl. Mater. Interfaces, 2015, 7(31): 17226-17237.

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