1. 毕业设计（论文）的内容和要求

本论文的主要内容对纳米级有机改性硅酸镁锂的制备及吸附性能制备及吸附性能的国内外研究现状、应用与发展进行了简要的阐述。

简述了纳米级有机改性硅酸镁锂的结构特点、制备工艺和应用前景。

对有季铵盐改性碳酸镁锂的制备参数及其吸附性能表征进行了研究。

2. 参考文献

[1] 黄赟, 魏书静, 陈思远,等. 聚乙烯醇/合成硅酸镁锂纳米复合膜的制备研究[J]. 化工新型材料, 2018(3). [2] 邵俊, 桑蓉栎, 郭丰艳,等. 改性方法对石墨烯改性有机膨润土颗粒吸附性能的影响[J]. 硅酸盐通报, 2018, 37(3):1094-1102. [3] Wuhui Luo, Jiping Ouyang,et,al.Microwave/ultrasound-assisted modification of montmorillonite by conventional and gemini alkyl quaternary ammonium salts for adsorption of chromate and phenol: Structure-function relationship [J]. Science of the Total Environment 655 (2019) 1104#8211; 1112 [4] 韩丽荣, 鲁安怀, 陈从喜, et al. 有机膨润土制备条件对其吸附有机污染物性能的影响[J]. 岩石矿物学杂志, 2001, 20(4):455-460. [5] 夏承龙, 贾永忠, 高峰,等. 硅酸镁锂的人工合成及有机改性研究进展[J]. 盐湖研究, 2010, 18(1):58-63. [6] 谭彦卿, 金娇, 郑健龙,等. 有机改性膨润土制备及其用于改性沥青的研究进展[J]. 硅酸盐通报, 2017, 36(8):2636-2641. [7] 张天志,张天毅. 一种高透光率纳米级硅酸镁锂的水热合成方法, CN 105800626 B [8] 厉鹏. 纤维素#8212;硅酸镁锂复合结构与性质研究[D]. 齐鲁工业大学, 2016. [9] 微波辐射改性有机膨润土对吸附甲醛性能的影响[J]. 石河子大学学报(自科版), 2015, 33(3):346-350. [10] [11] 俞向东, 周跃菊, 杨盛春. 有机膨润土负载纳米TiO_2的制备及其对盐酸土霉素的吸附能力[J]. 环境工程学报, 2017, 11(9):5035-5040. [12] 季桂娟，张培萍，姜桂兰. 膨润土加工与应用[M]. 北京化学工业出版社，2013.6 [13] 刘文华. 改性膨润土钝化修复重金属污染土壤技术研究与应用[M]. 中国环境出版社, 2014. [14] 邵俊. 微波改性膨润土-石墨烯颗粒制备及对水中铬(Ⅵ)的吸附性能研究[J]. 化学研究与应用, 2017, 29(7):1069-1073. [15] Yu Y, Hu Z, Chen Z, et al. Organically-modified magnesium silicate nanocomposites for high-performance heavy metal removal[J]. Rsc Advances, 2016, 6(100):10.1039.C6RA20181D. [16] Guoyong D U, Zhang H, Yan L I, et al. Modification of magnesium silicate and its adsorption of organic matter in heavy oil wastewater[J]. Journal of Functional Materials, 2017, 48(6):06013-06017. [17] Yu Y, Hu Z, Chen Z, et al. Organically-modified magnesium silicate nanocomposites for high-performance heavy metal removal[J]. Rsc Advances, 2016, 6(100):10.1039.C6RA20181D [18] Loukhina I V, Bugaeva A Y, Dudkin B N. Mechanochemical synthesis of organically modified magnesium silicate[J]. Russian Journal of General Chemistry, 2015, 85(7):1583-1587. [19] Hai C, Yuan Z, Fuji M, et al. Electrical Conductivity of Hydrothermally Synthesized Sodium Lithium Magnesium Silicate[J]. Materials Research Bulletin, 2017, 97. [20] Sajedifard M, Ghanemi K, Nikpour Y. Mercapto-modified magnesium silicate micro-particles for efficient extraction and preconcentration of mercury ions from estuarine waters[J]. Analytical Methods, 2018:10.1039.C8AY00927A-. [21] Chi B, Bian W, Li R, et al. Magnesium Silicate Nanoparticals for Efficient Adsorption of Low Concentration Methylene Blue[J]. Journal of Nanoscience Nanotechnology, 2017, 17(8):5796-5801. [22] Zhang T, Zou J, Wang B, et al. Characterization of Magnesium Silicate Hydrate (MSH) Gel Formed by Reacting MgO and Silica Fume:[J]. Materials, 2018, 11(6):909. [23] Fan D, Gao M, Tao S, et al. Comparative study of organo-vermiculite, organo-montmorillonite and organo-silica nanosheets functionalized by an ether-spacer-containing Gemini surfactant: Congo red adsorption and wettability[J]. Chemical Engineering Journal, 2018, 349:388-396. [24]. Kumar D, Azum N, Rub M A, et al. Aggregation behavior of sodium salt of ibuprofen with conventional and gemini surfactant[J]. Journal of Molecular Liquids, 2018, 262:S0167732218307578. [25] Jiao J, Tan Y, Liu R, et al. Structure characteristics of organic bentonite and the effects on rheological and aging properties of asphalt[J]. Powder Technology, 2018, 329:107-114.

3. 毕业设计（论文）进程安排

起讫日期 设计（论文）各阶段工作内容 备 注 2018.12.28～2019.1.18 查阅文献资料 12.30~1.1 元旦假期 2018.1.19～2019.2.24 拟定实验方案，撰写开题报告 1.12~2.24 寒假 2019.2.25～2019.3.31 完成初步实验工作，并开展初步测试 2019.4.1～2019.6.3 进行中期检查，完成实验和测试 4.5~4.7清明假期 5.1~5.2五一假期 2019.6.4～2019.6.20 撰写毕业论文，答辩 6.7~6.9 端午假期