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毕业论文网 > 任务书 > 材料类 > 金属材料工程 > 正文

一壶法合成Li2FeSiO4@介孔碳复合物任务书

 2020-05-10 02:44:38  

1. 毕业设计(论文)的内容和要求

1. 毕业设计的内容

锂离子电池由于具有高的能量密度,长的循环寿命,已广泛应用于各种便携电子设备。未来,锂电池有望用于电动车等动力电池领域。电池的性能取决于电池材料。目前锂电池负极材料发展迅速,正极材料成为锂电池大范围应用的瓶颈。开发高容量锂电池正极材料迫在眉睫。li2fesio4由于存在2个锂脱嵌的可能性,理论容量高达330 mah g-1,近年来人们对其的研发兴趣日益剧增。但是该材料离子和电子电导率极低,需要与碳复合进行改性。

本课题拟采用表面活性剂辅助的溶胶-凝胶法制备碳前躯体-甲阶酚醛树脂溶胶,然后往此溶胶中加入li2fesio4的前躯体,惰性气氛下煅烧后获得li2fesio4@c复合物,对获得的复合物进行微结构和电化学储锂性能研究。

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2. 参考文献

1. Sun, S.; Matei Ghimbeu, C.; Janot, R.; Le Meins, J.-M.; Cassel, A.; Davoisne, C.; Masquelier, C.; Vix-Guterl, C., One-pot synthesis of LiFePO4#8211;carbon mesoporous composites for Li-ion batteries. Microporous and Mesoporous Materials 2014, 198 (0), 175-184. 2. Jahel, A.; Ghimbeu, C. M.; Monconduit, L.; Vix-Guterl, C., Confined Ultrasmall SnO2 Particles in Micro/Mesoporous Carbon as an Extremely Long Cycle-Life Anode Material for Li-Ion Batteries. Advanced Energy Materials 2014, 4 (11), n/a-n/a. 3. Jahel, A.; Darwiche, A.; Matei Ghimbeu, C.; Vix-Guterl, C.; Monconduit, L., High cycleability nano-GeO2/mesoporous carbon composite as enhanced energy storage anode material in Li-ion batteries. Journal of Power Sources 2014, 269 (0), 755-759. 4. Ghimbeu, C. M.; Sopronyi, M.; Sima, F.; Delmotte, L.; Vaulot, C.; Zlotea, C.; Paul-Boncour, V.; Le Meins, J.-M., One-pot laser-assisted synthesis of porous carbon with embedded magnetic cobalt nanoparticles. Nanoscale 2015, 7 (22), 10111-10122. 5. Jahel, A.; Ghimbeu, C. M.; Darwiche, A.; Vidal, L.; Hajjar-Garreau, S.; Vix-Guterl, C.; Monconduit, L., Exceptionally highly performing Na-ion battery anode using crystalline SnO2 nanoparticles confined in mesoporous carbon. Journal of Materials Chemistry A 2015, 3 (22), 11960-11969. 6. Matei Ghimbeu, C.; Le Meins, J.-M.; Zlotea, C.; Vidal, L.; Schrodj, G.; Latroche, M.; Vix-Guterl, C., Controlled synthesis of NiCo nanoalloys embedded in ordered porous carbon by a novel soft-template strategy. Carbon 2014, 67, 260-272. 7. Matei Ghimbeu, C.; Vidal, L.; Delmotte, L.; Le Meins, J.-M.; Vix-Guterl, C., Catalyst-free soft-template synthesis of ordered mesoporous carbon tailored using phloroglucinol/glyoxylic acid environmentally friendly precursors. Green Chemistry 2014, 16 (6), 3079-3088. 8. Huang, X.; Li, X.; Wang, H.; Pan, Z.; Qu, M.; Yu, Z., Synthesis and electrochemical performance of Li2FeSiO4/C as cathode material for lithium batteries. Solid State Ionics 2010, 181 (31#8211;32), 1451-1455. 9. (a) Dahbi, M.; Urbonaite, S.; Gustafsson, T., Combustion synthesis and electrochemical performance of Li2FeSiO4/C cathode material for lithium-ion batteries. Journal of Power Sources 2012, 205 (0), 456-462; (b) Zhao, Y.; Li, J.; Wang, N.; Wu, C.; Ding, Y.; Guan, L., In situ generation of Li2FeSiO4 coating on MWNT as a high rate cathode material for lithium ion batteries. Journal of Materials Chemistry 2012, 22 (36), 18797-18800. 10. Gong, Z. L.; Li, Y. X.; He, G. N.; Li, J.; Yang, Y., Nanostructured Li2FeSiO4 Electrode Material Synthesized through Hydrothermal-Assisted Sol-Gel Process. Electrochemical and Solid-State Letters 2008, 11 (5), A60-A63. 11. Muraliganth, T.; Stroukoff, K. R.; Manthiram, A., Microwave-Solvothermal Synthesis of Nanostructured Li2MSiO4/C (M = Mn and Fe) Cathodes for Lithium-Ion Batteries. Chemistry of Materials 2010, 22 (20), 5754-5761. 12. Wu, X.; Jiang, X.; Huo, Q.; Zhang, Y., Facile synthesis of Li2FeSiO4/C composites with triblock copolymer P123 and their application as cathode materials for lithium ion batteries. Electrochimica Acta 2012, 80 (0), 50-55. 13. Zheng, Z.; Wang, Y.; Zhang, A.; Zhang, T.; Cheng, F.; Tao, Z.; Chen, J., Porous Li2FeSiO4/C nanocomposite as the cathode material of lithium-ion batteries. Journal of Power Sources 2012, 198 (0), 229-235. 14. Zuo, P.; Wang, T.; Cheng, G.; Cheng, X.; Du, C.; Yin, G., Effects of carbon on the structure and electrochemical performance of Li2FeSiO4 cathode materials for lithium-ion batteries. RSC Advances 2012, 2 (17), 6994-6998. 15. Chen, W.; Lan, M.; Zhu, D.; Wang, C.; Xue, S.; Yang, C.; Li, Z.; Zhang, J.; Mi, L., Synthesis, characterization and electrochemical performance of Li2FeSiO4/C for lithium-ion batteries. RSC Advances 2013, 3 (2), 408-412.

3. 毕业设计(论文)进程安排

2016.02.22-2016.03.10 查阅文献资料,了解研究背景,完成外文翻译,文献综述和开题报告 2016.3.11-2016.5.16 进行课题实验,结果分析与处理 2016.05.17-2016.06.07 撰写毕业论文,完成审阅与修改 2016.06.07-2016.06.14 制作答辩PPT,进行答辩

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