1. 毕业设计(论文)的内容和要求
本课题设计了双金属硒化物阵列用于钠离子电池的负极材料,课题基于开发高性能钠离子电池的目的,探究材料制备影响因素,研究材料形貌、结构与电化学性能之间的关系,实现对电极材料的可控制备,以提升其电化学性能。
最后把整个研究内容写成毕业论文。
毕业论文的内容和要求如下:(1)在第1章引言部分,通过文献阅读和总结分析,给出如下内容:钠离子电池的工作原理和制备方法,钠离子电池的发展历程、研究现状和目前还存在的问题或不足,本课题拟开展的研究内容和预期目标。
2. 参考文献
根据毕业要求指标点2.3、10.2,毕设期间要进行研究现状调查与总结,要求在开题报告及毕业设计(论文)中涉及的英文文献不少于20篇,其中近5年不少于8篇,英文文献不少于5篇。
以下是与本课题相关的部分文献列表:[1] Fang Y, Chen Z, Xiao L, et al. Recent Progress in Iron-Based Electrode Materials for Grind-Scale Sodium-Ion Batteries[J]. Small, 2018.14:173116.[2] 刘国庆,吴建国,申磊,戴翔.电池储能系统综述[J].工业控制计算机, 2013, 8(26): 104-6.[3] Goodenough JB, Park K-S. The li-ion rechargeable battery: a perspective[J]. Journal of the American Chemical Society. 2013.135:1167-1176.[4] Kim SW, Seo DH, Ma X, et al. Electrode materials for rechargeable sodium-ion batteries: potentials alternatives to current lithium-ion batteries to current lithium-ion batteries[J]. Advanced Energy Materials. 2012.2: 710-721.[5] Kim SW, Seo DH, Ma X, et al. Electrode materials for rechargeable sodium-ion batteries: potentials alternatives to current lithium-ion batteries to current lithium-ion batteries[J]. Advanced Energy Materials. 2012.2: 710-721.[6] Chen S, Wu C, Shen L, et al. Challenges and Perspectives for NASICON-Type Electrode Materials. 2017.29:3529-3614.[7] Cheng X, et al.Binding Nanosized Cobalt Chalcogenides in B,N-Codoped Graphene for Enhanced Sodium Storage.[J]Small Methods, 2018.[8] Yabuuchi N, Kubota K, Dahbi M, et al. Research development on sodium-ion batteries[J]. Chem.Rev 2014,114:11636-11682.[9] Li Hui, Wu Chuan, Wu Feng, et al. Sodium Ion Battery: A Promising Energy-storage Candidate for Supporting Renewable[J] ElectricityActa Chim.Sinica,2014,72:21-29.[10] Gaubicher J, Boucher F, Moreau P, et al. Abnormal operando structural behavior of sodium battery material: Influence of dynamic on phase diagram of Na x FePO4[J]. Electrochemistry Communications,2014,38(104-6. [11] Dai Z, Mani U, Tan HT, et al. Advanced Cathode Materials for Sodium-Ion Batteries: What Determines Our Choices? [J]. Small Methods, 2017.1700098.[12] DELMAS C, BRACONNIER J-J, FOUASSIER C, et al. Electrochemical intercalation of sodium in Na x CoO2 bronzes[J]. Solid State lonice,1981,3(165-9.[13] Lu Z, Dahn J. In Situ X-Ray Diffraction Study of P2Na2/3[Ni1/3Mn2/3]O2[J].Journal of The Electrochemical Society,2001,148(11):A1225-A9.[14] Parant J P, Olazcuaga R, Devalette M, et al. Sur puelques Nouvelles phases de for mule NaxMnO2(X≤1)[J].J Solid State Chem,1971,3(1):1-11.[15] Cao Y, Xiao L, Wang W, et al. Reversible sodium ion insertion in single crystalline manganese oxide nanowires with long cycle life [J]. Advanced Materials, 2011, 23(28): 3595-3600.[16] Duan W, Zhu Z, Li H, et al. Na3V2(PO4)3@C coreshell nanocomposites for rechargeable sodium-ion batteries[J]. Journal of Materials Chemistry A, 2014, 2(23):8668.[17] NISHIJIMA M, GOCHEVA I D, OKADA S, et al. Cathode properties of metal trifluorides in Li and Na secondary batteries[J]. Journal of Power Sources,2009,190(2):558-62.[18] Zaghib K, Trottier J, Hovington P, et al. Characterization of Na-based phosphate as electrode materials for electrochemical cells[J]. Journal of Power Sources,2011,196(22):9612-7.[19] Lee K T, Ramesh T, Nan F, et al. Topochemical synthesis of sodium metal phosphate olivines for sodium-ion batteries[J].Chemistry of Materials,2011,23(16):3593-600.
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