1. 毕业设计（论文）的内容和要求

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2. 参考文献

[1] J.B. Goodenough, Y. Kim, Challenges for Rechargeable Li Batteries? Chemistry of Materials. 22, 587-603 (2010). [2] J.-Y. Hwang, H.M. Kim, S.-K. Lee, J.-H. Lee, A. Abouimrane, M.A. Khaleel, I. Belharouak, A. Manthiram, Y.-K. Sun, High-Energy, High-Rate, Lithium-Sulfur Batteries: Synergetic Effect of Hollow TiO2 -Webbed Carbon Nanotubes and a Dual Functional Carbon-Paper Interlayer. Advanced Energy Materials. 6, 1501480 (2016). [3] A. Manthiram, Y. Fu, S.H. Chung, C. Zu, Y.S. Su, Rechargeable lithium-sulfur batteries. Chem Rev. 114, 11751-11787 (2014). [4] Y.S. Su, A. Manthiram, A new approach to improve cycle performance of rechargeable lithium-sulfur batteries by inserting a free-standing MWCNT interlayer. Chem Commun (Camb). 48, 8817-8819 (2012). [5] A. Manthiram, S.H. Chung, C. Zu, Lithium-sulfur batteries: progress and prospects. Adv Mater. 27, 1980-2006 (2015). [6] X. Jiang, T. Zhang, L. Yang, G. Li, J.Y. Lee, A Fe/Mn-Based Prussian Blue Analogue as a K-Rich Cathode Material for Potassium-Ion Batteries. ChemElectroChem. 4, 2237-2242 (2017). [7] L. Wang, Y. Lu, J. Liu, M. Xu, J. Cheng, D. Zhang, J.B. Goodenough, A superior low-cost cathode for a Na-ion battery. Angew Chem Int Ed Engl. 52, 1964-1967 (2013). [8] Y. Jeon, K. Choi, S. Im, Compositional Control of Monolithic Bimetallic (Fe/Co) Prussian Blue Analogs by the Dual-Source Method. Bulletin of the Korean Chemical Society. 36, 2970-2973 (2015). [9] Y. Jeon, K. Choi, S. Im, Dual-Source Method: A Facile Method to Obtain Orthogonal Monolithic Bimetallic (Fe/Co) Prussian Blue Analog. Bulletin of the Korean Chemical Society. 36, 2966-2969 (2015). [10] F. Ma, Q. Li, T. Wang, H. Zhang, G. Wu, Energy storage materials derived from Prussian blue analogues. Science Bulletin. 62, 358-368 (2017). [11] P. Nie, L. Shen, G. Pang, Y. Zhu, G. Xu, Y. Qing, H. Dou, X. Zhang, Flexible metal杘rganic frameworks as superior cathodes for rechargeable sodium-ion batteries. Journal of Materials Chemistry A. 3, 16590-16597 (2015). [12] X. Jiang, H. Liu, J. Song, C. Yin, H. Xu, Hierarchical mesoporous octahedral K2Mn1#8722;xCoxFe(CN)6 as a superior cathode material for sodium-ion batteries. Journal of Materials Chemistry A. 4, 16205-16212 (2016). [13] J. Nai, X.W.D. Lou, Hollow Structures Based on Prussian Blue and Its Analogs for Electrochemical Energy Storage and Conversion. Adv Mater. e1706825 (2018). [14] X. Wu, L. Fan, Y. Qiu, M. Wang, J. Cheng, B. Guan, Z. Guo, N. Zhang, K. Sun, Ion-Selective Prussian-Blue-Modified Celgard Separator for High-Performance Lithium-Sulfur Battery. ChemSusChem. 11, 3345-3351 (2018). [15] C. Yang, C.-H. Wang, J.-S. Wu, X. Xia, Mechanism investigation of Prussian blue electrochemically deposited from a solution containing single component of ferricyanide. Electrochimica Acta. 51, 4019-4023 (2006). [16] P. Nie, J. Yuan, J. Wang, Z. Le, G. Xu, L. Hao, G. Pang, Y. Wu, H. Dou, X. Yan, X. Zhang, Prussian Blue Analogue with Fast Kinetics Through Electronic Coupling for Sodium Ion Batteries. ACS Appl Mater Interfaces. 9, 20306-20312 (2017). [17] M. Okubo, I. Honma, Ternary metal Prussian blue analogue nanoparticles as cathode materials for Li-ion batteries. Dalton Trans. 42, 15881-15884 (2013). [18] B. Wang, Y. Han, X. Wang, N. Bahlawane, H. Pan, M. Yan, Y. Jiang, Prussian Blue Analogs for Rechargeable Batteries. iScience. 3, 110-133 (2018). [19] X. Zhu, T. Lin, E. Manning, Y. Zhang, M. Yu, B. Zuo, L. Wang, Recent advances on Fe- and Mn-based cathode materials for lithium and sodium ion batteries. Journal of Nanoparticle Research. 20, (2018). [20] Q. Zhang, L. Fu, J. Luan, X. Huang, Y. Tang, H. Xie, H. Wang, Surface engineering induced core-shell Prussian blue@ polyaniline nanocubes as a high-rate and long-life sodium-ion battery cathode. Journal of Power Sources. 395, 305-313 (2018).

3. 毕业设计（论文）进程安排

12.12-1.13 #26597;#38405;#25991;#29486;#65292;#32763;#35793;#33521;#25991;#25991;#29486;#65292;#24320;#39064; 3.13-4.28 #23454;#39564; 4.28-5.12 #35770;#25991;#20013;#26399;#26816;#26597; 5.12#65293;5.28 #23454;#39564;#24635;#32467; 5.28#65293;6.9 #25776;#20889;#35770;#25991;#21450;#35770;#25991;#31572;#36777;