浇铸法制备Li2FeSiO4@介孔碳用于高性能锂离子电池任务书
2020-05-10 02:44:39
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。
2. 参考文献
1. Qiu, H.; Zhu, K.; Li, H.; Li, T.; Zhang, T.; Yue, H.; Wei, Y.; Du, F.; Wang, C.; Chen, G.; Zhang, D., Mesoporous Li2FeSiO4@ordered mesoporous carbon composites cathode material for lithium-ion batteries. Carbon 2015, 87 (0), 365-373. 2. Yang, J.; Hu, L.; Zheng, J.; He, D.; Tian, L.; Mu, S.; Pan, F., Li2FeSiO4 nanorods bonded with graphene for high performance batteries. Journal of Materials Chemistry A 2015, 3 (18), 9601-9608. 3. Zhang, L.; Ni, J. F.; Wang, W. C.; Guo, J.; Li, L., 3D porous hierarchical Li2FeSiO4/C for rechargeable lithium batteries. Journal of Materials Chemistry A 2015, 3 (22), 11782-11786. 4. Zhang, Z.; Liu, X. Q.; Wang, L. P.; Wu, Y.; Zhao, H. Y.; Chen, B.; Xiong, W. Q., Fabrication and characterization of carbon-coated Li2FeSiO4 nanoparticles reinforced by carbon nanotubes as high performance cathode materials for lithium-ion batteries. Electrochimica Acta 2015, 168, 8-15. 5. Xu, Y. M.; Shen, W.; Wang, C.; Zhang, A. L.; Xu, Q. J.; Liu, H. M.; Wang, Y. G.; Xia, Y. Y., Hydrothermal synthesis and electrochemical performance of nanoparticle Li2FeSiO4/C cathode materials for lithium ion batteries. Electrochimica Acta 2015, 167, 340-347. 6. Qu, L.; Liu, Y.; Fang, S. H.; Yang, L.; Hirano, S. I., Li2FeSiO4 coated by sorbitanlaurat-derived carbon as cathode of high-performance lithium-ion battery. Electrochimica Acta 2015, 163, 123-131. 7. Huang, X.; You, Y.; Ren, Y.; Wang, H.; Chen, Y.; Ding, X.; Liu, B.; Zhou, S.; Chu, F., Spray drying-assisted synthesis of hollow spherical Li2FeSiO4/C particles with high performance for Li-ion batteries. Solid State Ionics 2015, 278, 203-208. 8. Ren, B.; Xu, Y.; Yan, Y.; Yang, R.; Wang, J., Synthesis and electrochemical performance of spherical-like Li2FeSiO4/C/SP cathode material for lithium-ion batteries. Journal of Alloys and Compounds 2015, 633, 456-462. 9. (a) Zhang, Z.; Liu, X.; Wang, L.; Wu, Y.; Zhao, H.; Chen, B., Synthesis of Li2FeSiO4/C nanocomposite via a hydrothermal-assisted sol#8211;gel process. Solid State Ionics 2015, 276, 33-39; (b) Milovic, M.; Jugovic, D.; Mitric, M.; Dominko, R.; Stojkovic-Simatovic, I.; Jokic, B.; Uskokovic, D., The use of methylcellulose for the synthesis of Li2FeSiO4/C composites. Cellulose 2016, 23 (1), 239-246. 10. Kamon-in, O.; Buakeaw, S.; Klysubun, W.; Limphirat, W.; Srilomsak, S.; Meethong, N., A Study of Transient Phase Transformation in LFS/C using in-situ Time Resolved X-ray Absorption Spectroscopy. Int. J. Electrochem. Sci. 2014, 9 (8), 4257-4267. 11. Gao, K., Effect of Mn doping on electrochemical properties of Li2FeSiO4/C cathode materials based on a vacuum solid-state method. Ionics 2014, 20 (6), 809-815. 12. Gao, H.-y.; Hu, Z.; Yang, J.-g.; Chen, J., Li2#8722;xFe1#8722;xAlxSiO4/C Nanocomposites Cathodes for Lithium-Ion Batteries. Energy Technology 2014, 2 (4), 355-361. 13. Gao, H.; Wang, L.; Zhang, Y.; Zhang, A.; Song, Y., Tartaric acid assisted synthesis of Li2FeSiO4/C: Effect of carbon content on the electrochemical performance of Li2FeSiO4/C for lithium ion batteries. Powder Technology 2014, 253 (0), 638-643. 14. Gao, H.; Wang, L.; Zhang, Y.; Song, Y., Effects of solvent composition on the electrochemical performance of Li2FeSiO4/C cathode materials synthesized via tartaric-acid-assisted sol#8211;gel method. Ionics 2014, 20 (6), 817-823. 15. Sun, S.; Matei Ghimbeu, C.; Vix-Guterl, C.; Sougrati, M.-T.; Masquelier, C.; Janot, R., Synthesis of Li2FeSiO4/carbon nano-composites by impregnation method. Journal of Power Sources 2015, 284 (0), 574-581
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