铝离子掺杂改性锂离子筛任务书
2020-05-21 10:05
1. 毕业设计(论文)的内容和要求
1.查阅有关文献,掌握国内外制备锂离子筛的现有方法及不足之处; 2.熟悉离子掺杂对于锂离子筛的影响; 3.确定实验方案,考察铝离子掺杂对于锂离子筛吸附性能的影响; 4.掌握制备的具体实验操作步骤及确定所需的表征手段; 5.实验结果分析讨论; 6.撰写毕业论文,按照要求对数据进行分析处理、绘制图表。
2. 参考文献
[ 1 ] Liu Shi-Feng(刘石峰); Yang Li-Xin(杨立新); Gao Li(高丽);Lin Yang(林杨).Three-Dimensionally Ordered Macroporous LiAlMnO4: Preparation and Li Extraction/Insertion Behavior (三维有序大孔LiAlMnO4的合成及其Li 脱嵌行为)[J].Chinese Journal of Inorganic Chemistry (无机化学学报),2010,26 (10): 1895-1899. [ 2 ] 纪志永,彭靖龄,袁俊生,焦朋朋,王军,王志全. 基于Li4Mn5O12的铝改性锰基锂离子筛前体的制备[J]. 无机盐工业, 2015(12):22-24. [ 3 ] 高潭华,刘慧英,张鹏,吴顺情,杨勇,朱梓忠. Al掺杂的尖晶石型LiMn2O4的结构和电子性质[J]. 物理学报,2012 (18). [ 4 ] Yang-Kook Sun*, Bookeun Oh, Hwack Joo Lee. Synthesis and electrochemical characterization of oxysulfide spinel LiAl0.15Mn1.85O3.97S0.03 cathode materials for rechargeable batteries. Electrochimica Acta 2000(46):541#8211;546. [ 5 ] Jyh-Fu Leea, Yin-Wen Tsaib, Raman Santhanamb, Bing Joe Hwangb et al. Local structure transformation of nano-sized Al-doped LiMn2O4 sintered at different temperatures. Journal of Power Sources 119#8211;121(2003)721#8211;726. [ 6 ] Gui-Ming Song*, Zhi-Mou Xu, Yu-Jin Wang, Yu Zhou. Synthesis and electrochemical characterization of LiMn2-xAlxO4 powders prepared by mechanical alloying and rotary heating. Electrochemistry Communications 5 (2003) 907#8211;912. [ 7 ] J.L. Wang, Z.H. Li #8727;, J. Yang, J et al.. Effect of Al-doping on the electrochemical properties of a three-dimensionally porous lithium manganese oxide for lithium-ion batteries. Electrochimica Acta 75 (2012) 115#8211;122. [ 8 ] Anbao Yuan#8727;, Lei Tian, Wanmei Xu, Yuqin Wang. Al-doped spinel LiAl0.1Mn1.9O4 with improved high-rate cyclability in aqueous electrolyte. Journal of Power Sources 195 (2010) 5032#8211;5038. [ 9 ] Zhaohui Li #8657;, Jie Yang, Jingliang Wang et al. A phase-inversion process to prepare porous LiAl0.1Mn1.9O4 spinel for aqueous rechargeable lithium batteries. Microporous and Mesoporous Materials 162 (2012) 44#8211;50. [ 10 ] S. Zandevakili, M. Ranjbar, M. Ehteshamzadeh. Recovery of lithium from Urmia Lake by a nanostructure MnO2 ion sieve. Hydrometallurgy 149 (2014) 148#8211;152.
3. 毕业设计(论文)进程安排
第一周 查阅文献,了解课题相关背景知识; 第二周 阅读相关文献并翻译英文文献,完成论文综述部分,熟悉仪器并准备做实验; 第三-四周 实验方案制定,完成开题报告; 第五-六周 完成制备锂离子筛前驱体的实验; 第七-十周 完成离子掺杂实验并考察不同条件下其对吸附性能的影响,采用不同的手段进行表征。
第十一周 总结前段时间做的实验,写中期小结; 第十二-十三周 对制备的离子筛进行优化以提高其稳定性; 第十四-十五周 完成实验,写论文稿,做PPT,准备答辩。
