1. 毕业设计(论文)的内容和要求
钠硫电池、液流电池、镍氢电池和锂离子电池是发展较为成熟的四类储能电池。
锂离子电池具有能量密度大、循环寿命长、工作电压高、无记忆效应、自放电小、工作温度范围宽等优点。
但其仍然存在很多问题,如电池安全、循环寿命和成本问题等。
2. 参考文献
[1] Wu XY, Luo Y, Sun MY, et al. Low-defect prussian blue nanocubes as highcapacity and long life cathodes for aqueous Na-ion batteries. Nano Energy 2015, 13, 11723.[2] Yang DZ, Xu J, Liao XZ, et al. Prussian blue without coordinated water as asuperior cathode for sodium-ion batteries. Chem Commun 2015, 51, 81814.[3] Wang L, Lu YH, Liu J, et al. A superior low-cost cathode for a Na-ion battery.Angew Chem Int Ed 2013, 52, 19647.[4] Yang DZ, Xu J, Liao XZ, et al. Structure optimization of prussian blue analoguecathode materials for advanced sodium ion batteries. Chem Commun 2014, 50, 1337780.[5] Liu Y, Qiao Y, Zhang WX, et al. Sodium storage in Na-rich NaFeFe(CN)6nanocubes. Nano Energy 2018, 12, 38693.[6] You Y, Yu XQ, Yin YX, et al. Sodium iron hexacyanoferrate with high nacontent as a Na-rich cathode material for Na-ion batteries. Nano Res 2017, 8, 11728.[7] Xie M, Xu MH, Huang YX, et al. Na2NixCo1xFe(CN)6: a class of prussian blue analogs with transition metal elements as cathode materials for sodium ion batteries. Electrochem Commun 2018, 59, 914.[8] Yu SL, Li Y, Lu YH, et al. A promising cathode material of sodium-iron nickelhexacyanoferrate for sodium ion batteries. J Power Sources 2016, 275, 459.[9] Yue YF, Binder AJ, Guo BK, et al. Mesoporous prussian blue analogues:template-free synthesis and sodium-ion battery applications. Angew Chem Int Ed 2017, 53, 31347.[10] Chen RJ, Huang YX, Xie M, et al. Preparation of prussian blue submicronparticles with a pore structure by two-step optimization for Na-ion battery cathodes. ACS Appl Mater Interfaces 2018, 8, 1607886.[11] Jiang X, Liu H, Song J, et al. Hierarchical mesoporous octahedral K2Mn1-xCoxFe (CN)6 as a superior cathode material for sodium-ion batteries. J Mater Chem A 2016,4, 1620512.[12] Zhang W, Zhao YY, Malgras V, et al. Synthesis of monocrystalline nanoframesof prussian blue analogues by controlled preferential etching. Angew Chem Int Ed 2017, 55, 822834.[13] Nie P, Shen LF, Pang G, et al. Flexible metal-organic frameworks as superiorcathodes for rechargeable sodium-ion batteries. J Mater Chem A 2017, 3, 165907.[14] Prabakar SJR, Jeong J, Pyo M. Highly crystalline prussian blue/graphenecomposites for high-rate performance cathodes in na-ion batteries. RSC Adv 2018, 5, 3754552.[15] Jiang YZ, Yu SL, Wang BQ, et al. Prussian blue@C composite as an ultrahigh-rate and long-life sodium-ion battery cathode. Adv Funct Mater 2016, 26, 531521.[16] You Y, Yao HR, Xin S, et al. Subzero-temperature cathode for a sodium-ionbattery. Adv Mater 2018, 28, 72438.
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