1. 毕业设计（论文）的内容和要求

毕业论文是对大学四年学习情况以及对所做的课题情况的反映,其内容应该包括: a) 查阅相关文献资料，提出实验计划，明确实验内容。

b) 了解课题的研究目的，进行大量的实验，了解目前微孔聚合物材料研究进展和发展动态，掌握各种微孔聚合物材料的判别方法和性能评价指标，熟悉材料的制备流程。

并在此基础上总结实验经验及注意事项，按要求完成毕业论文的写作。

2. 参考文献

[1] Liang, W.D., et al., Conjugated microporous polymers/n-carboxylic acids composites as form-stable phase change materials for thermal energy storage. Rsc Advances, 2013. 3(39): p. 18022-18027. [2] Zhang, C., et al., Bifunctionalized conjugated microporous polymers for carbon dioxide capture. Polymer, 2015. 61(0): p. 36-41. [3] Zhuang, X.D., et al., Conjugated Microporous Polymers with Dimensionality-Controlled Heterostructures for Green Energy Devices. Advanced Materials, 2015. 27(25): p. 3789-3796. [4] Wang, W.Q., et al., Synthesis of novel hyper-cross-linked polymers as adsorbent for removing organic pollutants from humid streams. Chemical Engineering Journal, 2015. 281: p. 34-41. [5] Tan, L., et al., Knitting hypercrosslinked conjugated microporous polymers with external crosslinker. Polymer, 2015. 70: p. 336-342. [6] Meng, L.B., et al., Self-Supported Fibrous Porous Aromatic Membranes for Efficient CO2/N-2 Separations. Acs Applied Materials Interfaces, 2015. 7(28): p. 15561-15569. [7] Wang, J., et al., Effect of nitrogen group on selective separation of CO2/N-2 in porous polystyrene. Chemical Engineering Journal, 2014. 256: p. 390-397. [8] Zhang, Y.W., et al., Gas uptake, molecular sensing and organocatalytic performances of a multifunctional carbazole-based conjugated microporous polymer. Journal of Materials Chemistry A, 2014. 2(33): p. 13422-13430. [9] Vinodh, R., et al., Microporous hypercross-linked conjugated quinonoid chromophores of anthracene: Novel polymers for CO2 adsorption. Chinese Journal of Polymer Science, 2014. 33(2): p. 224-235. [10] Liu, Q.Q., et al., Design, preparation and application of conjugated microporous polymers. Polymer International, 2014. 63(3): p. 381-392.

3. 毕业设计（论文）进程安排

2015.12～2016.1 检索国内外相关文献和专著，了解微孔聚合物研究进展，熟悉微孔聚合物制备放大，制定实验初步方案 2016.1～2016.3 合成微孔聚合物，通过不同单体的选择来调控孔径、孔结构，增大孔体积进而提高多孔材料对相变材料的吸附性能。

2016.3～2016.5 通过一系列的不同孔径的微孔聚合物介质选择吸附不同链长的相变材料来寻求具有高储热性能及高稳定性的复合相变材料 2016.5～2016.6 分析整理实验数据，撰写毕业论文，答辩